WO1997049427A1

WO1997049427A1 - Drugs for ameliorating renal disorders

Info

Publication number: WO1997049427A1
Application number: PCT/JP1997/002241
Authority: WO
Inventors: Yasushi Kawauchi; Jun Takasaki; Kazumi Hayashi; Yasuhiko Masuho
Original assignee: Yamanouchi Pharmaceutical Co., Ltd.
Priority date: 1996-06-27
Filing date: 1997-06-27
Publication date: 1997-12-31
Also published as: AU3276197A

Abstract

Renal disorders caused by the administration of cisplatin are ameliorated by administering an antibody having an inhibitory effect on type II phospholipase A2. A monoclonal antibody capable of inhibiting the type II phospholipase A2 activity or proteins or peptides containing a part of the antibody and having the same inhibitory effect are capable of depressing the nephrotoxicity, which is the most remarkable side effect of cisplatin and restricts the dose of cisplatin, and, therefore, are usable as drugs for ameliorating the renal disorders thus caused.

Description

Specification _Ί disorder improving agent technology field

The present invention relates to an agent for improving kidney injury, and more particularly to an agent for preventing, modifying, or treating a disorder caused by administration of a gold compound.

I-metallized compounds, especially cisplatin, are anti-Mi 攛 drugs and are widely used for urinary / genital tumors in the polar region as well as in the iH: region. For example, bladder cancer, ovarian cancer, cervical cancer, esophageal cancer, cancer and other panpan. However, from the city Supurachin ^ Jingai, impaired digestive tract ¾, the bone marrow gap, 'there are side effects the river, such as Utsuwasuki ½, especially ΨΠν' hearing is low / 11 ri:! Order to occur in ¹ to卞^ mn Because of this, throw <. Is restricted. Cisplatin is filtered from the glomerulus and is secreted from the proximal fibrils and excreted in the urine, so that cisbratin at the skin ft depth; Renal damage is seen in the proximal renal fine of ^, in extraordinary I un-h; ^ cause fine Γί necrosis of the state (Shigeru Kimura ^÷::., Et al., 1 † of Cis-Diaminedichloroplatinum (1 1); of electron microscopy , E1 Urinary Society 76: 1439-1453, 1985). As a prophylactic method, 24-hour continuous infusion (Jac obs, C. et al., 24-hour infusion οτ cis-platinum in head and neck cancer.

Cancer. 42: 2135-2140, 1978), a method in which a diuretic such as furosemide domannitol was used in the infusion was experimentally attempted and was effective (ard, MJ et al., Prevension of renal faikure). In rats receiving cis-diamminedichloroplatinum (11) by administration of furosemid. Cancer Res. 37: 1238-1240, 1977), these methods are now used at the end. However, cisplatin is an ill-bringing drug that is dependent on the degree of blood flow. Some powers These laws do not provide sufficient protection against side effects. At present, the suppression of renal injury by cisplatin is defined as F1 ^ vasodilator, adenosine A1 receptor antagonist, radical scavenger, lysolime membrane stabilization ゾ (Deegan, PM et al. Renal Failure 17, pll7-123 (1995), Nagashima, K. et al. Jpn. J. Pharmacol. 67, p349-357 (1995), Mc Ginness, JE et al. Physiol. Chem. Physics. 10, p267-277 (1978) Lab. Invest. 55, p557-563 (1986), Kobayashi; Akira, et al., Japan Obstetrics and Gynecology Association 41. ρ683-687 (1989)), etc. † ', but not to clinical Okawa. Under these circumstances, the use of cisplatin

薬剤) is a drug that can be used as a drug.

JJ, Phospholipase, is known as an element that hydrolyzes the ester bond at the C2 position of 1,2-diacylphosphoglyceride, which is a component of the upper resting component. This enzyme is found in the extreme organs and cells of ΠιΠ 乳 Π 物, and not only regulates the metabolism and metabolism of biological membrane phospholipids, but also has the role of arachidonic acid cascade as a yeast: It is known that the products of the process, such as prostaglandin, leukotriene, tromboxane, and PAF, have various properties.

Phospholipase Α2 contains Ι, Ι ·! The intracellular ^ is known (II IIRa ヽ Clinic, 1994 Special Issue, 202-206). Even in this block, the type 11 phospholipase Α2 is induced into the exudate block of the inflamed site along with the inflammation reaction, and many ^^ are released into the blood. In addition, there are rare reports suggesting that this enzyme is a part of the cause of the disease in some inflammatory diseases. For example, Kikuchi- Yano shita discovered that distribution I ¹ to the model of ^ Blood heart disease in rats, a model of myocardial infarction in correspondence with the progress of organ ^ harm the activity of this enzyme is elevated; to (K i kuc hi -Ya noshita, R. et al., J. Biochemistry, 114: 33-38, 1993)

Lauritzen and colleagues have reported that the present invention plays a major role in the pathogenesis of cerebral ischemia perfusion injury (Lauritzen I. et al., B rain Research, 651: 353-356, 1994). Murakami et al., Allergic disease of Astada This enzyme plays a subtle role in Zhongchu, which promotes the release of histamine granules from mast cells, and impairs this drunk, which leads to a drug for treating allergic disorders such as asthma. (Murakami, Μ · et al., Journal of Immunology, 151: 5675-5684, 1993).

Smith et al. And Pruzanski et al. Reported that the enzyme is present more frequently in the blood of rheumatoid arthritis than that of normal people, and that there is an nj ability that causes or exacerbates the enzyme. (Smith GM et al., British Journal of Rheumatology, 31: 175-178, 1992; Pruzanski W. et al., J. Rheumato 1., 15: 1351-1355, 1988).

It is also known that phospholipase A2 enzyme ^ hydrolyzes membrane phospholipids ^ and is essential for binding to cells (Suga H. et al., Eur. J. Biochem., 218). : 807-813, 1993 / Murakami M. et al., J. Biol. Chem., 268: 839-844, 1993). Therefore, if an antibody can remove not only the enzyme in the free state in the blood or exudate but also phospholipase した ²2 bound to the cell where the cleft phospholipid fi is hydrolyzed, these antibodies will be new. It is expected that the more powerful hoolipholipase A2 based on the Sakugawa machine I will be effective. Moreover, when the antibody binds to phospholipase A2 bound to the cells, it is expected that the cells will be attacked by sleeve breaks and / or fefecta cells, resulting in side effects. However, an antibody that can remove phospholipase-2 bound to cells has not yet been obtained.

As described above, there are many reports suggesting that the present enzyme is compatible with the present invention, and reports regarding the present enzyme. However, ¾ / ”: Up to now, there has been no report at all on the fact that the present compound has been harmed by 杭 metals, especially cisplatin, which are pile cancer agents.

¾

This is a re-sakugawa that is also a compound, especially i of cisbratin. It is imperative that i! Iij be suppressed for ¹ , m, which restricts the injection of substances, especially cisplatin.

The present inventors have diligently studied the relationship between type II phospholipase A2 and disease. Conclusion 1 *, f 'Surprisingly, cisplatin induction in mice': ^ The phosphatase A2 activity of the buttocks in the insufficiency model was also observed, and the antibody that activates II phospholipase A2l; Injects an antibody with Sakugawa that releases type II phospholipase Λ2 bound to the cell membrane, repressing the kidney lipase phospholipase A2 ¾ ': and apparently altering the organs. ½ ½ Since this pile strongly PlU! I not only the mouse II phospholipase Λ2 but also the ^ I and H phospholipase A2 ^^, the human ^^ compounds of humans, especially those based on cisplatin it is also suitable for if.

That is, the present explanation is! On holiday

(1) 11 Monoclonal piles that oscillate the phospholipase Α2, or 投与 metals that contain --parts of itU or peptides that function as an active ingredient Is a modification of kidney ^^ by 1 drug alleged product,

(2) Monoclonal antibody that releases II phospholipase bound to the cell crotch, which is a monoclonal antibody, or a part thereof, is used to test the antimicrobial activity. Pharmaceutical composition, which is a modification of ^^ ^ by administration of Guangqi ^ ^ ^ as an active ingredient

(3) Monochrome eleven piles that act on the activity of ιι-type phospholipase A2 and release carefully bound 11 phospholipase A2.桨 or Beptide as the active ingredient, a medical compound that is a modification of the team by administering a gold compound, preferably

(4) Phospholipase Α2 is human! The composition according to any one of (1) to (3),

(5) Monoclonal antibody damages the activity of human lipase A1 by K1 and the monkey-derived 11-lipolipase A2 and (1) a pharmaceutical composition described in ( _t ), which is a monoclonal antibody capable of inhibiting the activity of

(6) The monoclonal antibody has a function of releasing human native type II phospholipase A2 bound to the cell membrane, and the monkey f1: l native type II phospholipase A2 bound to the cell membrane and / or mouse-derived type 11 phospholipase A2 (2) the medical composition according to (2), wherein

(7) Monoclonal antibody is one of the types II phospholipase A2 derived from human, and the monkey I II's phospholipase A2 and / or mouse Yamaki 11 11 '! (3) The pharmaceutical composition according to (3), which is a monoclonal stake rest that is capable of acting and capable of releasing 11 ^ phospholipase Λ2 that has been linked to cell detachment.

(8) The medicinal product according to any of (5) to (7), wherein the monoclonal antibody is a monoclonal antibody capable of binding to the epitope to which the monoclonal stake rest 12H5, 10, 1 or 1.4 binds. object,

It is.

Hereafter, the details of the water will be described.

Here is the definition of the phrase used in this description.

"Antibodies" refers to ίΰ- される that are / -stimulated by the immune response, are '-ΰϋ in the rest of the day, and have the activity to specifically bind to the immune j (antigen). Biochemistry Dictionary ¾

2nd ed., 81Γ-Κ Tsukakyo Chemical RJ people (1990); Πtwisted Bio S Shinkawa dictionary 4th ed., 230 shellfish, Sankei Biotech (1995)).

A “monoclonal antibody” is an antibody that is produced by a single-clone pile rest cell (Biochemical Dictionary 2nd ed., 1359Π, Tokyo Chemical Co., Ltd. (1990)).

“^ White matter” is the 'L: essential component of an organism, consisting of a polypeptide chain in which approximately 20 L-amino acids (including glycine) are linked by peptide bonds. ; ^: 'Dictionary 2nd edition, 810 shellfish, ίίί 〖Chemical Doujin (1990)) ο

"Peptide" means two or more amino acids joined by a peptide ^ It means that the number of amino acids is about 10 or less is called lipopeptide, and the one with less than 1 is called polypeptide (Biogenesis ^ Dictionary 2nd edition, 1202Π ヽ Kagaku Doujin (1990)).

"Epitope" means the structure of the i-position that is present in the antigen component f-10 and identified by the antibody. (^ Chemical Dictionary 2nd ed., 195ΪΙ, Tsukakyokadoujin (1990); Π , Bio i Shinkawa Dictionary 4th Edition, 93, Saito Biotech (1995)).

"In the present invention, the term" revision j "refers to an agent that reduces the harm of the A metallized pedestal and reduces the damage.

The pile rest of the Hjj, antibodies as possible out to inhibit the ^'λ Γ ί of II phospholipase A2 Kuikyu is preferably dry. In addition, when testing new drugs in humans, it is necessary to clarify their efficacy through animal tests. In that case,沾of type II phospholipase Α2 in the rest of the small animals and monkeys, such as a mouse '| ί ·: from the things ίΛ rest to W.1 is the river Iruko Toga必¹ ^ a,交No 'A monoclonal antibody with' reaction 'would be suitable. It is also known that phospholipase A2fi ':? H is required to bind to cells when hydrolyzing membrane phospholipid fi (Suga H. et al., EurJ. Biochem., 218: 807-813, 1993 / Murakami M. et al., J. Biol. Chem., 268: 839-844, 1993), Antibodies that release phospholipase A2 enzyme from cell membranes Is used. Specific antibodies include, for example, the monoclonal antibody described in International Publication No. β96 / 20959, and the monoclonal antibody 12Η5, 10.1 or 1.4 is preferred. Is more preferred. These monochrome piles have an nj ability to pick up and remove hybrids that have these / rests, namely, the hybridomas 12H5, 1.4, and 10.1. These hybridomas were obtained by increasing the immunity and increasing the immunity Kfj'ij, and spleen cells of BALB / c mice sensitized with 11-phospholipase A2 in healthy volunteers and Pffix cells of mouse P3x63Ag8 / U 1 (P3U1) can be fused by a conventional method, for example, the cell fusion fY method of Kayla and Milstein, and j: is effective (International Publication No. 96/20959 ■ '} Π / j Details). The mouse hybridomas 12H5, 1.4, and 10.1 obtained by the present inventors have been deposited as follows.

Deposit for Hypri-Dorma 12H5:

(B) Name of the depositary organization

Name: Ministry of International Trade and Industry, Institute of Industrial Science

Address: 1 Higashi, Tsukuba-shi, Ibaraki, 13 home country Π 1 «Ri- (mail ^ 305) (mouth) Deposit [I (Original date of deposit) 6 | 1 Π 22 Π

(C) '2,! ΈΦ' 条寄 5300 (FERM BP-5300)

Deposit about Hypri-Dorma 1.4:

(B) Name of the institution

Name: Ministry of International Trade and Industry Industrial Technology I ⁷ Life Industrial Technology Research Institute

To: Say this: E1 Ibaraki ^ Tsukuba "1 J I 13" (Postage ^ No. 305) (Deposit) Deposit Π (^ Deposit H) 6 ^ 1 1) 122

(C) Contract ¾ NII 5297 (FERM BP-5297)

Regarding Hypri-Doma 10.1 ^

(ィ) ^ machine [¾ name · address

Name: Trade & Industry A Institute of Technology

Address: Tsukuba, Ibaraki, Japan 1 J111 «R. (Postal 赉 305) (Mouth) Depositary Deposit (Original Depositary) 1994

(C) Accession number: Ushi.Ritsuken-jo 5298 S (FERM BP-5298)

As a medium for culturing the hybridoma, for example, Dulbecco's modified minimum essential medium (Dalbecco's modified minimum essential medium; hereafter abbreviated as “DMEMj”) is used. A medium containing glutamine, glucose, sodium pyruvate, 2-mercaptoethanol, and stake organisms (for example, penicillin 0, streptomycin, genyumycin, etc.) is used.

Hybridoma cultures are usually 5% at 37 ° C in medium 11 '-carbon oxide, 95% empty In the abdominal cavity of BALB / c mice pre-treated with 2,6,10,14-tetramethylpentyldecane (e.g., Aldrich i, Pristane) for 2-4 days in the gas phase The purification is carried out in about 10 to 20 µg to produce antibodies that can be purified.

The antibody used in the liquid assay may be a part thereof, or may be a part retaining the action of inhibiting II phospholipase A2 activity. Pile rest is digested with a protease such as pepsin by a conventional method, and is isolated and purified by a conventional method for decoupling I'l protein. ) You can get ₂ . Furthermore, the H chain and H promotion of the pile body and the H / A are converted to U (: I) by the dialkylation of the disulfide bond connecting H'i and L by the flow of dithiothreitol and odoacetamide. Hl and L ίί'ί can be ιlittered 'by the J bond alone, and the ^^ alkyl rest can be achieved (“Useful immunity test method I: Scientific, 1984”) j See 39 shellfish).

Monoclonal antibody lysate that is introduced in the water is used to inject proteins or peptides that contain the components of the stake. The ability to flow proteins or peptides that remove the-part of the pile;

Three strong. Examples of such monoclonal suspensions include: (1) an antibody consisting of a single amino acid sequence derived from an animal such as a mouse only in the i and J variable regions, and a normal region consisting of the amino acid sequence of human wildlife. A so-called "chimeric antibody", (2) only the complementarity determining region (or super- ^one- variable region: abbreviated as "CM_i" (abbreviated as "omplementarity-determining region")) The remaining region is composed of amino acid sequences, and the other region is a stake rest consisting of the amino acid K sequence of human wildlife, that is, a so-called "humanized an tibody". gJj. Regarding the “chimera anti-vaccine”, it is the t′J ability that l ii ^ is turned into ¾ according to a known method (Nature, 314, 268-270 (1985): Proc. Natl. Acad. Sci. USA., 84, 3439-3443 (1987): Proc. Natl. Acad. Sci. USA., 84, 214-218 (1987): Proc. Natl. Acad. Sci. USA., 81, 6851-6855. (1984)). In addition, regarding “humanized pile rest”, according to a known method, ^ It can be easily manufactured by a trader (Nature, 321, 522-525 (1986): Science, 239, 1534-1536 (1988): Proc. Nat 1.Acad. Sc. USA., 86, 10029). -10033 (1989): Proc. Natl. Acad. Sci. USA., 88, 2869-2873 (1991)). According to these documents and the like, when producing a “humanized antibody”, the basic skeleton of a human antibody in which only the CDR site is replaced with the CDR of a non-human organism (ie, the “humanized pile rest”) is formed. Antibody / called “human receptor stake”) is homologous to an antibody of an organism other than a human from which the transplanted CDR is derived.

It is considered preferable to use a human antibody.

"Chimeric pile rest" or "humanized antibody" means, for example, | Hyperidomas that form a pile, | Recombining with -f-, transfecting into cells, and allowing the cells to produce can produce E. coli (Int. J. Cancer, 44, 424-433 (1989), Proc. Natl. Acad. Sci. USA, 87, 8095-8099 (1990)). Also, after sequencing, the synthesized sequence of the corresponding sequence may be used, or the hybridoma may be combined with the hybridoma antibody; Can also. In addition, as the completion corresponding to the π-conversion region or CDR, the present invention

A DNA containing the sequence of SEQ ID NO: 1, 3, 18, or 20 or the salt of the CDRi thereof, which is separated from the sequence, is preferably used. In addition, SEQ ID NOs: 2, 4, and 19 are shown in any of 21. The amino acid sequence listed above is CDR part (SEQ ID NO: 5, 6, 7, 8, 9, 10, 22, 23) , 24, 25, 26 A DNA containing a base sequence encoding 27) is also preferably used. Column No .: base sequence encoding 5, 6, and 7; 1¾ column: “Salt S sequence encoding 8, 9, 10”; Sequence ¾ ·: Salt ^ sequence encoding 22, 23, 24, It is desirable that the nucleotide sequences encoding SEQ ID NOS: 25, 26, and 27 each flow as a-part of a skeleton encoding a particular antibody. One slag is replaced by salt & for multiple salts, and the deficient slag is a salt sequence. The chimeric antibody according to the present invention, which encodes humanized anti-bacterial activity, - for inhibiting the activity, it is also possible to have ffl the IgG ₄遗伝Ko as a framework portion (J.Exp.Med.166,1351-1361 (1987)).

The gene encoding the antibody can be isolated from the hybridoma producing the antibody of the present invention by a known method (Cancer Research, 47, 999-1005 (1987): Proc. Natl. Acad. Sci. .84, 2936-2940 (1987)). For example, it is possible to Ι) separate from the aforementioned mouse hybridomas 12H5, 1.4, 10.1 by a known method. In addition, the protein or peptide comprising the monoclonal pile of the present invention or a part thereof may be incorporated into the expression vector by incorporating the ordinal portion or a part of the gene encoding the antibody of the present gf! Ij, Large m \, fermented fii or ίΜ of course to the cell! It is the "J ability" that can also be obtained by letting them do it.

In addition, as long as there is a strain that inhibits 11-phospholipase A2 activity, the amino acid exchange and the deletion of the antibody or a part thereof introduced in the present invention can guide the change of import. The introduction of an amino acid alteration can be performed by introducing an alteration such as base substitution, ablation or insertion into a DNA encoding the amino acid. The conversion of DNA can be conducted by a known method (Gillamn et al., Gene, 8, 81-97 (1979): Roberts et al. 'Nature, 328, 731-734 ( 1987)). In addition, to select a ¾ sequence that encodes an amino acid sequence that is a preferred † のうち of the 変 '? Modified 5¾ base sequence, a force method based on the phage display method (Annu. Rev. Immunol., 12,433-455 (1994)).

Monoclonal antibodies 12H5 and 10.1 ligase can also bind to the epitope linked by 1.4. Those skilled in the art can easily identify the peptide to which a specific monoclonal antibody binds by using a conventional method (see “Monoclonal Experiment J. (See Tokyo Kagaku Doujin (1989).) Furthermore, various monoclonal antibodies that bind to the epitope can be obtained by immunization using the synthesized epitope or the like. Yes (E. Cordelia et al., Proc. Natl. Acad. Sci. USA, 90, 10290-102 94 (1993)). In addition, for the type 11 phospholipase A2 ligase, all or a part of the antibody clones directed against a part thereof may be subjected to an ELISA method using an epitope to screen a specific monochrome-null pile. It is possible.

The agent for improving renal impairment of the present invention is determined depending on the case in consideration of the administration route, disease symptoms, age and sex of the administration subject, and the like. The renal stimulant-improving agent of the present invention is particularly effective when an antibody is used as an active ingredient, non-oral injection, that is, subcutaneous, intramuscular or intravenous injection. I-streams usually consist of a solution of protein or peptide in a water-repellent, preferably aqueous, solution. Each aqueous solution can be used 4 times, for example, water, buffer, 0.4% saline, (1.3% glycine, 5% glucose, human albumin solution. These solutions are free. And generally do not contain any granulogenic substances.These alleged products can be killed by the wisdom of knowledge in the Juju River. Buffering agents, etc.] Auxiliary materials that are necessary for approaching Ui! Conditions, such as chemicals, etc., are used as vegetative materials, for example, sodium acetate, sodium chloride, chlorination power It can produce lithium, calcium chloride, sodium lactate, sodium citrate I, and lium ji. Well-known ridges have the ability to perform well-known techniques, such as, for example, Remington's Pharmaceutical Science, l5J; k, Mack Publ. ishing Company, Easton, PA (1980)., ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ ¾ 'It can be used by dissolving it in a suitable solvent, and can be used in freeze-drying and ffi-living.

The administration method is as follows: [Before gold compound administration, at the same time as I gold compound injection, or after gold compound injection 'J. ¾Can submit drug allegations.

In addition, the dose m of the monochromatic pile rest that is used in the present development is preferably 0.1 mg / kg to 500 mg / kg, and is usually injected into the pulse.

As the f-J metallization f object, ί 'is a joint action machine i †, (¾found and ，, 22, ll, p57 (l 988), Physician's desk reference, BOedition p705 (1996)) Compounds with anti-inflammatory properties, such as cisplatin, carboplatin, nedaplatin, ticoblatin, or `` cancer chemotherapy '' (p27, 1990-1991, Chugai ' 254-5, DWA2114R, NK121 and the like described above. Preferably, cisplatin or carboplatin. Simple theory of drawing

[Reduces the results of the recombinant human 11 phospholipase A2 ELISA for 12H5, 10.1 and 1.4.

Figure 2 shows the results of the ELISA for 10.1 and 1.4 for 'li liU Koitayama ^ phospholipase A2 沾'.

3 shows the inhibition of the recombinant human Π phospholipase A2 activity of 12H5, 10.1 and 1.4.

[1]] 4 shows the inhibition of 12H5, 10.1 and 1.4 against rat II phospholipase A2.

II5, 作: 12H5 来ホスホ 12 12: ホスホホスホホスホホスホ Μώ ホスホ.

J6 shows an additive effect on each of the polar platelet Yamato phospholipases A2? V, 'I: of 10.1.

m7 is smaller than Sakugawa for the various imperial platelets of Yamato phospholipase A2 I: 1.4.

1-18 indicates the action of releasing phosphorivase-2 bound to Βΐ-3A cells at 12Η5, 1.1 and 1.4.

This section describes the method for anchored PCR cloning of the 1.4 and 12H5 positions' ί and Lii'J: region cDNA.

M10 is the cDNA sequence and translated amino acid sequence of the uj domain of L Is shown. In addition, it is predicted to correspond to the CDR sequence (the row is labeled with a linear force. FIG. 11 shows the cDNA sequence and translated amino acid sequence of the variable region of the H chain of antibody 1.4. The sequences predicted to correspond to the CDR sequences are underlined Figure 12 shows the method for PCR cloning of the H and L chain variable regions cMA in 10.] Figure 13 shows the piles 1 shows the cDNA sequence and translated amino acid sequence of the variable region of the L chain of 12H5, and the sequence corresponding to the CDR sequence is underlined.

I 14 shows the cDNA sequence and translated amino acid sequence of the variable region of the heavy chain of antibody 12H5. Note that the sequence that is considered to correspond to the CDR sequence is marked with a dotted line. l¾l 15 shows phospholipase A2 i.: in mouse 4 ′ after cisplatin injection.

f¾l 16 shows the mouse “I'y-GTPgu properties” after administration of cisplatin.

FIG. 17 shows mouse BUN i at 4 4! I after administration of cisplatin.

Best form for applying the description

An example of the present HjJ is shown below, but the tree li / j does not limit these basket rows.

(Reference Example 1) Hypri-Dorma 12H5, 1.4, 10A 2MM

a) Preparation of recombinant human II ¹ j phospholipase A2

Akira Moto monochrome one monoclonal antibody is ί is by immune a Rikonbinan Bokuhi Bok II phospholipase A2, but recombinant human WINCH 1 1 ¾ Hosuhoripa its tone ^ all Japanese ίϋ ⁷ 5- 192167 · Publication Ichize Α2 Performed according to the method described above.

b) Preparation of immunized splenocytes

BALB / c strain male ^mice: the (seismic & 6 weeks old at ί Hajimeji), ginseng ^ Example la) · animals the convenor emissions Bok human type II phospholipase A2 or purified, ¹ 'I Ri 20〃G, 0 , 1 ml of ^ ίΦ. Saline solution was mixed with Freund's complete adjuvant, emulsified, and injected intracrotally (primary immunization). Afterwards, 2-3 ^ | iij ^ is 7 | i'l, | nj phospholipase Α2 Was mixed with Freund's complete adjuvant of the same volume and emulsified, and a booth was thrown. Twenty-four days after the seventh immunization, 20 / g of phospholipase A2 per animal was dissolved in 0.2 ml of physiological saline and administered intraperitoneally (final immunization). Three days after the final immunization, splenic armpit cells were collected from 1 P mice and suspended in DMEM-ground.

c) Preparation of hybridoma 12Η5, 1.4, 10.1

Spleen cells prepared in (lxl O ^H f [il) Mouse bone marrow肫cell P3x63Ag8-Ul (P3Ul) above (2xl0 ⁷ f | A |) and, the method of Kohler and Milstein [Nature, 256卷第495 ( 1975) see]. That is, the cells and P3U1 cells were washed several times with DMEM, and then both were centrifuged in a 50 ml plastic centrifuge to separate them. Next, the core was separated to remove the ground, and DMEMlml containing 50% (w / v) polyethylene glycol (manufactured by Sigma Co., Ltd., f-averaged ^: 3350) kept at 37 ° C for 1 minute was required. And added to the party.

Next, DMEMlOml kept at 37 ° C was dropped to terminate the cell lysis reaction. The reaction mixture was centrifuged, after removing the h¾ solution, HAT medium [hypoxanthine (1x10 'Έ), Ami Noputerin (4x10- ⁷ Μ), 10% © sheet fetal thymidine was added ⁽¹ .6x10 Π Μ) It was added to the residue DMEM medium] containing linf, spleen cell concentration; was set to 6XlO ^s cell number / ml. The suspension was dispensed into a 96-well plastic plate at a rate of 200〃1 (肿 1.2χ10 ^: 'cells) per well. After 11 days, the medium was removed by suction, and the medium was added. Cell fusion? About 10 holes later, about half of the holes had Hypri-doma ^ 贿. The antibody activity in the supernatant was measured by the method of d). Positive clones were transferred to a 48-well plastic plate and further transferred to a 24-well plastic plate and cultured in the same manner as described above except that aminopterin was eliminated. On a 24-well plastic plate culture, the antibody activity was confirmed by the method of d), and the enzyme inhibitory activity was measured by the method of e).

The three clones having the enzyme inhibitory activity were sequentially cloned by limiting dilution in order to preserve the clone 'M :. Thus obtained clone Te cowpea to ^{^:.} Is the monoclonal antibody, respectively 12Η5, 1.4, was life and 10.1. d) Measurement of antibody activity by ELISA (ELISA) method

The purified recombinant human type II phospholipase A2 was dissolved in 0.05 μg / ml of 20 mM Tris-buffered saline (TBS, pH 7.4) in each well (well) of a 96-well incisor microplate. And stored at 4 ° C overnight in a humid chamber. Thereafter, the solution is discarded, and TBS containing 1% blood serum albumin (hereinafter, abbreviated as BSA) is added in 200〃1 each, and incubated at 37 ° C for 1 hour to block an adsorbed portion of each gel. did. Thereafter, the o High Priestess dormer culture say yes ascites say yes that was TBS (TBS-Tween) several times with a solution washing净containing 0.05% Tween 20 (Tween 20 trade ^name): the Seikuikyushirube ^, 0.2% BSA The mixture was diluted with a TBS-Tween (BSA-TBS-Tween) solution, and added in 100 / l portions to the wells, followed by 2 hours at room temperature.

After washing with the TBS-Tween solution as before, dilute 2000-fold with the BSA-TBS-Tween solution and add 100% of the horseradish peroxidase-labeled anti-mouse! The reaction mixture was added to the well and reacted at room temperature for 2 hours. After the reaction, wash with TBS-Tween solution as before, and then include 0.006% hydrogen peroxide solution and 0.13 ^ / 1111 3,3 ', 5,5'-tetramethylbenzidine as fiHU quality 0.1 M sodium monocitrate buffer (pH 5.8) was added in 100〃1 portions, and the mixture was heated at low temperature for 30 minutes. After that, the reaction was stopped by adding 31 sulfuric acid in 25〃1 increments, and the absorbance at 450 nm was measured.

e) Measurement of phosphorinose A2 inhibitory activity

As a method for measuring the inhibitory activity of antibodies on phospholipase A2, Journal of Biological Chemistry (Pepinsky, RBet.al., J. Biol. Chem., 261 (9), 4239-4246 (1986)) was used. It was improved and measured by the following method.

Recombinant human type II phospholipase A2i 0.5 ^ and a culture supernatant or a purified pile were prepared using a 125 mM Tris-HCl buffer containing 150 mM sodium chloride, 12.5 mM calcium chloride, and 250 μg / ml BSA. The solution (pH 8.0) was subjected to preincubation at room temperature for 2 times at room temperature. Next, 25 クレイ 1 (10 cpm from 5 nogo) of the autoclave SN17 containing tritium-labeled oleic acid was added to the reaction solution, and the mixture was reacted at 37 ° C for 30 minutes. I let you. The reaction was transferred to ice, and 4N hydrochloric acid was added in 25〃1 to give ^ II :. After the reaction was stopped, 25 mg / ml of 40 mg / ml BSA was added, mixed, and then released on ice for 30 minutes.

Then, the supernatant was centrifuged at 15000 rpm for 2 minutes to measure the radioactivity of the supernatant. The value obtained by subtracting the negative control (radioactivity of a sample not containing phospholipase II and antibody) from the obtained radioactivity was defined as the phospholipase A2 activity. The Ml ',' ratio for the phospholipase A2 activity of the antibody was calculated based on the phospholipase-2 activity of the positive control (phospholipase-2 activity of a sample containing only the phospholipase-2 and not producing the antibody). It was a fraction.

Phospholipase A2 (1) (Phospholipase A2 and I, ¹ ίPhospholipase A2 i,) / (n-control phospholipase A2 activity)

In addition, the large intestine into which tritium-labeled oleic acid was taken in during the measurement of the phospholipase A2 activity [No. 1, Crave ^, ¹ is described in particular | jfj, l ' ^: 5-192167 Prepared according to the method described.

(See ^ Example 2) ^. And j¾ of monoclonal antibodies

a) ^ of monoclonal antibody

Male BALB / c mouse, ^/ 1.-: After 5-6 weeks of age, after injecting 0.5 ml of 2,6,10,14-tetramethylpentyldecane (Pristane, Sigmane I :) into the hip and ½郴intraperitoneally with戀濁the 5XL O ^N pieces of high Buri dormer after 14～2U i raw. manner贪塩water 0.5 ml. Ten to twenty days later, the ascites was collected from the slaughtered mice. 5-10 ml of monoclonal ^ ascites was obtained from the mouse of II.

b) Refinement of the monok mouth pile

After centrifugation of the ascites to remove impurities, a saturated ammonium sulfate solution of M · 'ή: was added, and the mixture was stirred on ice for a while. The resulting precipitate was separated by centrifugation, dissolved in a small tt of 0.1 M phosphate buffer (pH 7.4) containing 0.9% sodium chloride, and 100 volumes at --4 ° C. Dialysis was performed against the M buffer solution, and ¾gammag was added to the mouth. From this m minutes IgG was purified using a MAPS-II mouse monoclonal antibody glue kit (trade name, manufactured by Bio-Rad Laboratories, Inc.).

That is, the same volume of binding buffer was added to the gamma globulin fraction, mixed, and then mixed with the same binding buffer, and the column (gel) filled with “Protein A-Sepha rose CL4B” (Pharmacia) was used. The solution was applied to a bed volume of 20 m 1) and washed with three columns of binding buffer. Then, IgG was eluted with about 3 column volumes of the output buffer contained in the key. The eluted IgG was dialyzed against 20 mM Tris-buffered saline (PH7.4) and the like, and used as an antibody standard. Usually, 5 to 10 mg of IgG was obtained in 1 ml of ascites.

(Reference 3) Determination of antibody subclass

Using the hybridoma culture supernatant, the IgG subclass was determined using Amersham's mouse monoclonal antibody, Swiping River kit. This method was based on the ELISA method and determined to be 12H5 (IgG2a), 1.4 (IgG2a), and 10.1 (IgGl).

(Reference Example 4) Pile rest intersection: Reactivity

a) Light type 11 phospholipase A2 made by i

Add 1/5 (ACD solution (2% (w / v) glucose solution containing 65 mM citric acid and 85 mM sodium citrate) to rat PRP (liil./J, 扳 i, blood! 10). , 2500xg for 10 minutes The precipitated platelets were mixed with ACD / F10 ground (1: 5) (F10; Gibco Ne I :) to give 2x10 "cells / ml ^^ After that, it was precipitated at 2500xg for 10 minutes; ^ It was further precipitated [(After the platelets were turbidized with FlOii so as to become 2xlO ^ U3 / ml, the W-end reached 2mM and 2.5units. 1M calcium chloride and 2500 units / ml thrombin were added sequentially.

After addition, the mixture was incubated at 37 ° C for 5 minutes and then centrifuged at 3000 xg for 15 minutes at 4 ° C. The supernatant (later platelet thrombin-stimulated ') was collected and the supernatant was collected. For the sintering operation. Forming steel Hosuhoripa Ichize A2 JP ^ 5 192 167 Publication No. 12H described law ^of: Ding - it began to improve. That is, the stimulation of rat platelet thrombin The solution was passed through a sulfated cell mouth fine (Seikagaku Corporation) column (econo column; column size 20 ml; BIO-HAD) equilibrated with O.IM acetate buffer (pH 6.0). 200 ml of washing solution (Om acetate buffer (pH 6.0) containing 0.5 M sodium chloride) was passed through the column to wash thoroughly, and the eluate (0.1 M acetate buffer containing 1.5 M sodium chloride (p. H6.0)) was passed through 30 ml of the solution, and the resulting fractions were used as sulfated cell-port fine bonded I solids. Next, the sulfated cellulomin-bound fraction was separated by HPLC.

The column was CAPCELL PAK C18 (4.6 Wake 10 2501]; 资^/ 1: manufactured by Dodo), and the HPLC system was LC-4A ¾ ^ manufactured by Seiko Seisakusho), all at a flow rate of 1 ml / min. After passing the sulfated cellulofine yarn through ¹ iYYlriij, the solution was passed through 0.1% h trifluoroacetic acid for 60 minutes. Then, phospholipase A2 was dissolved in a linear gradient of 0-50% acetonitrile under 0.1% trifluoroacetic acid ^ 1 :. Since the peak of phospholipase A2 appears at about 30% acetonitrile, this peak was collected.

Fractions collected in M are SDS-Polyacrylamide gel 泳 Swim! As a result, phospholipase A2 was detected as a band, and this was designated rat 11 lipolipase A2.

b) Preparation of human, monkey, dog, rabbit, cat, mouse, mouse, and plate 11 phospholipase II

The translation of 11 phospholipase A2 derived from platelets derived from each platelet was used for the preparation of human liil platelet crushed liquid from Journal of Biological Chemistry (Biol. Chem., 264 (10), 5768-5775 (1989)). Prepared according to.

That is, PRP (platelet ¾ ^ plasma) is prepared from humans, rhesus monkeys, dogs, rabbits, mice, and cats, EDTA is added to a final concentration of 2 mM, and the cells are centrifuged at 2500 xg for 10 minutes. Was recovered. The cells were suspended in 30 mM Tris-HCl buffer (pH 7.4) containing 120 mM sodium chloride and 2πιΜ EDTA, and centrifuged at 2500 xg for 10 minutes. After this operation twice, the resulting cells f¾ suspended in a the 120mM½ sodium and 2mM of EDTA such that 2xl0 ^'j cells per lml ^ without 30πι Bok squirrel-HCl buffer (ρΗ7.4) , Liquid We tied under body nitrogen.

Thaw the frozen cell suspension, add the same 0.36% sulfuric acid, and crush the cells by ultra-sonic crushing (BIOC 7040 ULTRA SONIC PROCESSOR: manufactured by Seiko; output 80, 15 seconds x 6 times). I went. The obtained cell sonication solution was left on ice for 60 minutes, and then centrifuged at 100 ° C for 30 minutes at 4 ° C to recover the supernatant. The precipitate was further centrifuged with 1/3 volume of 0.18N sulfuric acid, suspended in water, and left in an ice cube for 60 minutes. Thereafter, the resultant was centrifuged at 10,000 × g for 30 minutes at 4 ° C. to collect chicks. The dialysis operation was performed on 5 OrnMff acid buffer (pH 4.5) containing 200 mM sodium chloride. After the dialysis, the cell lysate was centrifuged at 15,000 xg for 40 minutes at 4 ° C, and the とし 'ϋ' was collected to obtain platelet Yamagi phospholipase II.

c) Eliza j responsive

Participation Example 2b) each pole black-and-white one Naru pile rest you were n ^at: made, '"', having conducted the以Do of and have river.

The IgG preparation was adjusted to 10 μg / ml with BSA-TBS-Tween to prepare a three-fold dilution series. An ELISA was performed according to Reference Example Id), and the interaction with recombinant human phospholipase A2 and rat phospholipase A2 was performed for tl. ELISA against rat II phospholipase A2 was carried out by replacing reference recombinant Id) glue-combinant human phospholipase A2 with rat II type phospholipase A2.

The results are shown in II to FIG. 2 with the antibody concentration on the horizontal axis and the absorption efficiency at 450 nm on the vertical axis. 12H5 and 1.4 showed cross-reactivity to rat phospholipase A2, but 10.1 did not show cross-reactivity o

d) Sex to phospholipase A2

The following sudden test was conducted using the ^ species monoclonal body paste obtained in Reference Example 2b).

1) Inhibitory activity against recombinant human phospholipase A2

Recombinant human II of Reference Example la). In addition, the inhibitory effect on phospholipase A2 was measured. FIG. 3 shows the inhibition ratio of each antibody against the recombinant human type II phospholipase A2 activity by taking the concentration of the antibody upon preincubation of the antibody preparation with phospholipase A2 on the horizontal axis. 12H5 and 1.4 almost completely fluffed phospholipase A2 at a concentration of 10 μg / ml. On the other hand, 10.1 showed an 80% inhibition at a concentration of 3 μg / ml).

2) For rat type II phospholipase A2:

Refer to the recombinant human 11 phospholipase A2 in Reference Example le) .- The affinity for phospholipase A2 was measured by replacing the rat 11 phospholipase A2¾ sample (0.5 ng) in Example 4a). . Using the concentration of pile rest when pre-incubation of phospholipase A2 and pile rest 'was performed on ラッ, the rate of inhibition of rat ^ phospholipase A2 activity on ^ rest was shown in 囟 4. 12H5 and 1.4 also impaired the ligation properties of L-I and II-phospholipase A2, and the antibody concentration required to add 50% of L-phospholipase A2 was 5 μg / ml at 12H5. there were.

3) Ptl activity against humans, monkeys, dogs, rabbits, cats, mice, and 小 ίιι Koitayamarai type II phosphorylase II

P [l ¾ activity was measured by replacing the recombinant human ホスホ phospholipase 参考 2 of Reference Example le) with-定 iii (20 to 40 1) of the platelet lysate of ^ ιίιι platelet lysate. . By referring to the antibody concentration when pre-incubating the platelet lysate and the antibody 'product, the ratio of' 杭^: to platelet-derived phospholipase A2i. In each pile is shown in Fig. 5 to ί¾ιι.

Figure 7 shows. 12Η5, 1.4 and 10.1 showed that phospholipase 2 activity from human liil platelet ill was recombined with recombinant human phospholipase 2 | 5 | Based on this, Masamitsu Hon's recombinant phosphor 11 phosphorino. I'm c'i! : The rest had the ability to identify i of natural human 11 phospholipase A2. The antibody of the invention was a PU from phospholipase A2 ^ 'i: from rhesus monkeys and mice. In addition, the-part of the phospholipase A2 activity of dog fill Koitayama was determined. -', Egret, cat ίΐιι Small plate Phospholipase A2¾'I from Yamaki: No. (Reference Example 5) Activity of releasing antibody type II phospholipase A2 bound to antibody cells Hepatocytes (BRL-3A: purchased from Daiyaku Pharmaceutical Co., Ltd.) were cultured on a 96-well plate culture plate (Falcon) in F12K / 10. The cells were cultured using% FCS (F12K: manufactured by Oguchimoto Pharmaceutical Co., Ltd.). Except for culture of cells cultured until Konfuruento, and Inkyube one Chillon the F12K / 10% FCS at 50〃1 added 37 ° C containing recombinant human type II e Suhoripaze A2 labeled with ^{1 2} of 4 ng, the phospholipase A2 Tied to cells. One hour later, 50〃1 of {2} / 10% FCS or F12K / 10% FCS containing the knotted pile specimen was added, and the mixture was incubated with St! For 2 hours. After the incubation, the nutrient solution was collected and its radioactivity was measured. Occasionally, the activity of 4 ng of phospholipase A2 labeled with added to the reaction system was measured separately. Liberated from the cells phospholipase A2 of Kuikyu沾忤: from radioactivity of added phospholipase .LAMBDA.2, phospholipase A2 in cell yarn, ¹ I was added F 12Κ / 10% FCS after Λ in Kyube Bok the time The radioactivity of the culture solution was shown by fi-characters when the incubation was performed by changing the concentration of the added antibacterial, assuming that fiti obtained by subtracting | |: was 100%. . The labeling of recombinant human 11-liphospholipase '2 with' was performed by the following method. I0D0GEN (manufactured by Pierce Co., Ltd.) was coated with 10 μg of glass, and 100 μM lOOmM Tris-HCl buffer (ρΗ7.4) containing 30 μg of recombinant human type II phospholipase A2 was added to the test. After adding 6〃1 of 100 mCi / ml of Na ² ('I (ICN ^)), the mixture was allowed to stand at room temperature for 20 minutes. The reaction solution was taken out from the glass test tube to remove the ^^. . Na ^{1 2 5} 1 of reaction was removed by gel filtration.

The radioactivity of the culture solution was measured when the purified antibody preparation of each degree was added to the cells to which phospholipase A2 had been bound and incubated. The horizontal axis shows the antibody concentration in the coagulation fluid after the addition of the antibody, and the ability to release phospholipase A2 bound to the cells of each antibody is shown in FIG. 18. Control mouse stakes did not release phospholipase Λ2 from cells at all, but 12Η5, 10.1 and 1.4 released phospholipase Λ2 from cells in a concentration-dependent manner.

[Reference example 6) —Simplification of stake breaks 1.4 and 10.1 and cloning of L ί ”transgenic region cDM cDNA black messenger RNA was dry in-learning has created "QuickPrep Micro mRNA Puri f ication Ki t ( Pharmacia Co., Ltd.)" about 10 ⁷ High Priestess dormer cells or et al using. That is, the cells were suspended and lysed with an extraction buffer, and the mRNA was isolated using oligo dT cellulose (Oligo (dT) -Cellulose).

The anti-rest 1.4 H and L chain variable region cDNAs were prepared as shown in Fig. 9 using "5, RACE System Kit" (manufactured by Gibco). That is, the constant region gene (C) and High Priestess head formed to primer first and reverse fc 'enzyme (SUPER SCRIPT II Reverse Transcri ptase) messenger one RNA of 1〃 using ^銥;. 4'a manner present; T! CDNA was synthesized. The Braima I used here is "GSP1L (5'-GGCACCTCCAGATGTTAACTGC-3 ') / | ¾row number.: 11" and Hi is "GSP1H (5'-GGAA (AG) ^r rA (AGC) CCCTTGACCAGGC -3 ') Z-sequence number ¾: 12 ". In the sequence of GSP1H, the sequence in parentheses を reduces the nucleotide corresponding to 3 縮. Next, the mRNA-mRNA was digested with RNaseH, and then ^ i'ic DNA was purified using GLASS MAX Spin Cartridgej. Promoted cDNA using dCTP and terminal deoxynucleotide transferase: A poly (dC) tail was ligated to the T-terminus H chain and Li TJ variable region construction-(V) is an anchor-primer (5, -CUACUACUACUAGGCCACGCGTCGACTAGTACGGGGG) that hybridizes with the poly (dC) tail. GGG 1 1 GGG UG-3, / sequence number: 13) and a primer that forms a hybrid with the normal region-(C) GSP2L (5'-TATAGAGCTCAAGCTTGGATGGTGGGAAGATGGATACAGTTGGTGC-3 ') / (¾ column number ^ : 14 "(for light chain) or" GSP2H (5'-TATAGAGCTCAAGCTTCCAGTGGATAGAC (CAT) GATGGGG (GC) TGT (TC) GTTTTGGC-3 ') / i-line: 15 "(for H promotion) The sequence was amplified using LATaq (manufactured by Takara Co., Ltd.) In the GSP2H sequence, the ¾ column in parentheses indicates the base corresponding to the shrinkage. When the product was subjected to 1.2% agarose gel electrophoresis, a single band was detected at about 550 to 570 base pairs for both Sori 1 and Lli.The H region and L chain variable region cDNAs of antibody 12H5 were also found in human and f < Can be created in any way.

The H chain and Ui'inJ variable region cDNA of antibody 10.1 were prepared by the method shown in Fig. 12 using "Marathon cDNA Amplification Kit" (manufactured by Clontechne I :). That is, "M Single-stranded cDNA was synthesized using 1 g of messenger RNA using arathon cDNA synthesis primer and reverse fe enzyme. The reaction solution was further reacted with RNaseH, DNA polymerase I (DNA polymerase), and DNA ligase to form double-stranded cDNA. Furthermore, double-stranded cDNA was blunt-ended by reacting this reaction solution with T4 DNA polymerase (T4 DNA polymerase erase). The Rathon cDNA adapter was ligated to the single-stranded jcDNA using T4 DNA 1 igase. The H- and L-chain variable region promoters (V) are applied to the adapter primer-1 and the primer -GSP2L (the i-chain of the light chain or GSP2H (place of "H"!)) Which form a hybrid with the adapter. When the PCR-amplified product was subjected to 1.2% agarose gel II swimming, the band was detected at about 550 to 570 salt ^ pair for both Satoshi and the L chain. did it.

Using the “TA cloning Kit (Invitrogen I :)” for the ffi decision, the PCR amplified fragment was inserted into the pCRT Mini vector. The pCRTMI I plasmid into which the fragment was inserted was transformed into a competent cell of Escherichia coli JM109 (manufactured by 'ί'). ! Play Bok on the> colonies and pCR ^{1 M} II and Haipuri' Bok 'to form "5, primer UD (5' -ACCGAGCTCGGATCCACTAG-3 ' ) ¾ column *: 16" and "3, primers one DU (5' - ATGCATGCTCGAGCGGCCGCC-3 ') Z sequence ^

: 17 j, the Taq Polymerase (

) Was subjected to colony PCR. ^ The widened DNA fragment was analyzed by 1.2% agarose gel 'z-medium', and colonies with amplified fragments of about 600 to 620 base pairs were found to be 3 clones for 1.4Ltt and 3 clones for H chain. 4 clones and L rest 10. We selected 2 clones for 1 L chain and 4 clones for H promotion. The human intestine i of the clone was cultured, and plasmid DNA was prepared using “QIAwel 8 Plasmid Purification Kit (Qiagen ^)”.

Prepare the plasmid A of the prepared clone A, primer UD, primer DU, or GSP2L for L-promotion and GSP2H for H-chain, and sequence using the DNA Sequencing Kit (Perkin-Elmane I :). The reaction was performed and analysis was performed using “373 DNA Sequencer (manufactured by ABh) j. Three clones of U'i ^^ tt and four Hfi features ^ 'I of antibody 1.4, The clones having two L chain specificities and four H chain specificities of the antibody 10.1 and the antibody 10.1. Figure 10 (SEQ ID NOS: 1 and 2) shows the L chain of antibody 1.4, and 间 11 (SEQ ID NOs: 3 and 4) shows the H chain of antibody 1.4. The cDNA sequence of the variable region and the deduced amino acid sequence, respectively. Is shown. In each figure, the sequence considered to correspond to the CDR sequence is underlined. (The i-th CD i column of the L chain of antibody 1.4 is 1%! Column number: 5 to 7, and the predicted CDR sequence of the H chain of antibody 1.4 is reduced to SEQ ID NOs: 8 to 10.)

(Reference Example 7) Homologous search of antibody 1.4 against H and L chain "J variable region amino acid sequence with human anti-amino acid sequence"

Genomic, EMBL, SWISS-PROT, P1R, and PRF databases homologous to the amino acid sequence in the Hi and Ufjni variable regions of antibody 1.4 obtained in Reference Example 6 were homologous. The homology search was performed using the BLASTP 1.4.8MP (Altschul, .F. Et. Al. J. Mol. Bio 1., 215, 403-410 (1990)) program. As a result, the antibody 1.4 can be used, for example, for Pag-1 pile rest (Hughes-Jones, NC et.al. Biochem. J., 268, 135-140 (1990)) and WEA anti-rest (Goni, F. et. Proc. Natl. Acad. Sci. USA, 80, 4837-4841 (1983)).

(See -Example 8) Cloning of H 鉑 and L l '' J domain cDNA of 12H5

Messenger RNA was dry to the cDNA cloning by Shikawa the "QuickPreP Micro mRNA Puri fi cat ion Kit (Pharmacia Biotech Inc.) j, was prepared from hybrid doughs Ma cells lxl0 ⁷ I. That is, cells extraction buffer ( The mixture was turbidly dissolved in an extraction buffer, and oligo dT cellulose (Oligo (dT) -Cellulose) was applied to release messenger RNA.

The H-chain and L-promoting variable region cDNA of antibody 12H5 was prepared using the 5 ′ RACE System Kit (GIBC0 BRL) j as shown in FIG. 9; that is, the normal region (C) The iDNA was synthesized by ffl using 1 mg of messenger RNA by ffl using a primer which forms a hybrid and SUPER SCRIPT II Reverse Transcriptase. Γ GSP1L (5 '-GGCACCTCCAGATGTTAACTGC-3') / ¾ In the H chain, it was "GSP1H (5'-GGAA (AG) TA (AGC) CCCTTGACCAGGC-3 ') / sequence number: 12". In the GSP1H sequence, the sequence in parentheses indicates the base corresponding to the degeneration. Next, the messenger RNA in the form of a gun was digested with RNaseH, and the -strand cDNA was purified using GLASS MAX Spin Cartridge j. Single-strand cDNA was obtained using dCTP and terminal deoxynucleotide transferase. A poly (dC) tail was attached to the 3 'end of the cDNA, and the H and L chain variable region genes (V) were anchor primers that hybridized with the poly (dC) tail (5'-CUACUACUACUAGGCCACGCGTCGACTAGTACGGGI I GGGI IGGGI IG -3, / ffi column «Re: 13) and ^ Regional region-Primer that forms a hybrid with (C) GSP2L (5'-TATAGAGCTCAAGCTTGGATGGTGGGAAGATGGATACAGTTGGTGC-3,) / ft! Column number: 14 (L chain ) GTA2H (5'-TATAGAGCTCAAGCTTCCAG TGGATAGAC (CAT) GATGGGG (GC) TGT (TC) GTTTTGGC-3 ') / Sequence-: 15 "chain combination) and LA Taq (g ) Was used to perform amplification by PCR. G

In the SP2H sequence, the sequence in parentheses indicates the salt corresponding to m.o When this PCR reaction product was subjected to 1% agarose gel electrophoresis, both the H chain and L chain were about 550 to 570 salt pairs. A Φ. Band was detected in the vicinity.

To determine the sequence, we used “ΤΛCloning Kit (Invitrogen ^; ) j” to incorporate the PCR-enhanced fragment into the pCRI I vector in the evening. Plasmid was transformed into a large I¾JM109 competent cell ('-kffl—manufactured by Shakusha Co., Ltd.) The “5 ′ primer UD (5 '-ACCGAGCTCGGATCCACTAG-3') / Sequence II: 16 "and" 3 'Primer DU (5'-ATGCATGCTCGAGCGGCCGCC-3') / Sequence II-: 17 "and Taq polymerase (Takara Shuzo I :) Colony PCR was performed. The reaction products were analyzed by 1% agarose gel electrophoresis, and clones in which amplification of DNA fragments of about 600 to 620 salt pairs were observed were selected. ^ The cloned E. coli was cultivated, and plasmid DNA was prepared using rQIAGEN Plasmid Mini Kit (QIAGEN) j. The prepared plasmid DNA of each clone was purified using the DNA Sequencing Kit (Perkin Elmer) and the 377 DNA Sequencer (Applied Biosystems Inc.) using the primers UD and DU. The nucleobase sequence analysis was performed. Regarding the above 1: From the preparation of messenger RM from hybridoma cells to the analysis of nucleic acid salts of L-chain and H-chain ¾ sequence analysis, two operations were performed independently, and the results were confirmed for | ii. did. Two different nucleic acid salt sequences were obtained for the L chain of antibody 12H5. Of the 16 clones whose nucleotide sequences were analyzed, 8 clones were identified as `` Mouse lg aberrantly rearranged ka ppa-chain mRNA V-J2-C-regionj (Carroll, WL et.al. Molecular Immunology, Vol. 25, No.10, pp.991-995, 1988), and the ft sequence of the remaining 8 clones was | nj--In addition, the sequence of the 9 clones analyzed was 1 · Figure 13 (SEQ ID NOS:-18 and 19) is for Li of antibody 12H5, and [¾114 (SEQ ID NOs: 20 and 21) is for H chain, and d) NAi column of nj variable region and The deduced amino acid sequence is shown.o In each figure, the column expected to correspond to the CDR sequence is underlined. (The CDR sequence of the L chain of antibody 12H5 is SEQ ID NO: 22 to 24, The sequence of the CDMd of the H chain is shown in SEQ ID NOS: 25 to 27, respectively.)

(Reference (Column 9) Homologous search of L 休 'j and 贿 "ίvariable region amino acids in pile rest 121 with amino acids in human

An r¾ ぃ human pile having the same sex as the amino acid sequence of the L chain and Η chain variable regions of the antibody 12H5 obtained in Reference Example 8 was searched from the SwissProt database. The homology search is BLAST P 1.4.9. MP [26- March-1996] [Build 14:27:01 Apr 1 1996] (Altschul, SF et al. J. Mol. Biol., Vol.215, pp.403 -410, 1990). This concludes that (LAY antibodies (Capra, JD & Klapper, DG Scand. J. Immunol., 5, 677-684 (1976), Capra, JDk Kehoe, JM Proc. Natl. Acad. Sci. , 71, 4032-4036 (1974)), EU antibody (Gottlieb, PD et al. Biochemistry, 9, 3155-3161 (1970), Cunningham, BA et.al. Biochemistry, 9, 3161-3170 (1970), Gall , WE & Edelman, GM Biochemistry, 9, 3188-3196 ( 1970)) and GAL antibody (Laure, CJ et. Al. Hoppe Seylers Z. Physiol. Chem., 354, 1505-1509 (1973)).

[Example 1] Effect of mouse anti-human phospholipase A2 monoclonal antibody 12H5 on mouse cisplatin-induced urgency ^ failure model

Keizo Ushikawa purchased a male BALB / c mouse (4 weeks old, body; 15-20g) from SLC, raised it for 4 yen, and went to the bell.

Cisplatin-inducible ¹ ^ non ^: A model was prepared as follows. Specifically, 0.6 ml of cisplatin (Landa, ί ”| Nippon Kayaku Co., Ltd., 0.5 mg / ml) was injected subcutaneously into the back of the mouse. The throw nogo method is based on the mouse π phospholipa

—Ze A2 monoclonal antibody (12H5) [0.3 and 1.0 mg / 0.2 ml / mouse, dissolved in physiological ^^ water (Otsuka ^ Yakuhin Co., Ltd.)] with cisplatin '/.241 Q & A! One day after administration of cisplatin, “-; j to 2 mouths 1 1 i! 1 问: F1 was injected intraperitoneally ^ 4. As control ί; mouse type 11 phospholipase モノクロ 2 Rat phospholipase-2 monoclonal pile rest (1.0 mg / 0.2ni1 / mouse) was injected intraperitoneally in the same manner as the anti-human phospholipase-2 monoclonal antibody injection method. Inject 0.6 ml of U'l! & Saline in the back subcutaneously instead of cis-bratin, and inject saline (0.2 ml) with anti-human I and II phospholipase A2 The mice were intraperitoneally administered in the same manner as described in (1) and (2) mice were used.

After administration of cisplatin, all mice were treated with ether hemp at 3 f: IM, and heparinized 1! Via an abdominal human vein. After that, the abdominal human artery was cut off, the mouse was killed, and the left ¾ was removed. The blood sample was subjected to 5,000 rpm for 20 minutes, and the BUN was measured using plasma as BUN Kainos (available from Kainos). For ¾, after removing the capsule, the capsule was removed, and the slice was cut along the red rim. The slices were incubated for 8 hours with 10% formalin buffer, and then washed with water to remove formalin, and ethanol (70, 80, 90, 99.5, 100%), dehydrate the benzene series, complete the benzene series, and paraffin-saturated benzene. I went to the river. Then, a microtome was cut into a 2〃m thick tissue section, stained with hematoxylin and eosin (HE), and subjected to string-like examination. The body K of the mice was measured every day during the sudden examination period. First, the body ffi of a normal mouse was about 20 g at the beginning of the test, and about 21 g at the end of the abrupt test, showing an increase in lgB. However, in the case of administration of cisplatin, ^ -j- 1 シス decreased the body volume by about lg, and on day 2 a dramatic decrease in body JB of 5 g with 3 | JN was observed. In addition, an approximately similar decrease was observed in mouse anti-rat phospholipase A2 monoclonal anti-infused cisplatin-injected j.iff. b) When the type II phospholipase A2 monoclonal pile (0.3 mg / kg) was injected, the dose was about 4 g at the end of the test and about 3.5 g in the 1.0 mg / kg group. The decrease in body Si caused by the administration of cisplatin was reduced to a sword. Blood BUN was reduced to 17.5 mg / d 1 in ι mice. Was increased to 33.9 mg / d 1 to about 2 プラ by cisplatin administration .. Mouse anti-rat type II phospholipase Α2 monounal suspension was almost similar to cis-platin administration in Ifn serum BUN. On the other hand, the average value of liuil BUN, which was obtained by throwing a pile of human phospholipase A2 monoclonal (0.3 mg / mouse), was 27.5 mg / d1, and ιΙ · About 40% of BUNft that had been exposed to I · W was suppressed by cis-bratin injection in mice.Pile human phospholipase モノクロ 2 Monochrome-Null stake (l.Omg / mouse) The average plasma BUN in the group was 24.7 mg / dl, which suppressed about 60% of BUNiii'i: increased in rats by cisplatin administration in mice.The cisplatin group and mouse anti-rat type II phospholipase A2 In the case of monochromatic stagnation ·! ', Tubular necrotic cell S3 fragment was widespread!? M Necrosis was observed in stake.Human liver I phospholipase A2 monoclonal antibody (1.0 mg / mouse) administration ; its ¾ death site only observed only in, HjJ Raka to Shisuburachin of W fine I: skin cells', ¹ ί was suppressed.

Based on the above, 1) Pile heat Π ¾Phospholipase モノ 2 monoclonal mononuclear stakes are suppressed by the cisplatin-injected renal germ: I ^{1 of} BUNi 'i, which is the target, and 2) Type 2 phospholipase モノクローナル 2 monoclonal antibody It was also found that the necrosis of renal tubular epithelial cell S3 fragment observed in the microscope was suppressed.

[Example 2] Effect of mouse anti-human phospholipase A2 monoclonal antibody 12H5 and 1.4 on mouse cisplatin-induced nephropathy ¾ model

The animals used were male BALB / c mice (4 weeks old, body SU5-20g) purchased from SLC, raised one in four, and then submitted to the experiment.

Cisplatin induction Injury model mouse was prepared by subcutaneous injection of cisplatin (lander injection, H-Hon Kayaku Co., Ltd., 0.5 ig / ml) 0.6 mU iW subcutaneously to the ^ part of the mouse. The mouse formed i! I in Reference Example 2: ： · Human II 'phospholipase Λ2 monoclonal' Li book (12H5 or 1 ノ 1) [0.1, 0.3 or 1.0 mg / 0.2 ml / mouse, water (Hitotsuka Pharmaceutical Co., Ltd.) was injected intraperitoneally Φ. Times 24 hours before cisplatin injection. Control monoclonal anti-reactivity that does not react with mouse 11-phospholipase A2 as a control group (5H8; Sugita Y. et al., I 麵 imology, 82, p34-41 (1994)) (1.0 mg / 0.2 ml / mouse) ) Was injected into the hip cavity in the same manner as in the administration of anti-human type 11 phospholipase A2 monoclonal pile. Usually 0.6 ml of saline is injected into the epidermis instead of cisplatin, and ^ saline (0.2 ml) is injected into the abdominal cavity in the same manner as in the method of casting a pile of human ヒ phospholipase Λ 2 monoc 一We cast in. Mice were used in each group.

In addition, the following 1) a test in which urine is collected and the amount of y-glutamine mil transbeptidase is measured in the urine, and 2) a test in which blood is collected in 411Π and the BUN in the blood is measured are separately described. I went to. In addition, 3) the kidney that was used to measure the phospholipase A2 property of the kidney width was used in the experiment for measuring BUN in the blood.

1) Administration of cisplatin 1Π [: 1] The mice of each group were given ether hemp I *, and J 蓄 was stored from the bladder. In addition, 2) Shisuburachin throw .4 ΠΙΊ to subjected to E one Te le hemp W mice of each胙, blood was collected using a Matokuritsu Bok capillary to was subjected to heparin treatment i ^f l! To from the fundus. 3) Thereafter, the abdominal aorta was cut, the mice were killed, and the kidneys were removed. 1) Urine was centrifuged at 3,000 rpm for 10 minutes, and the supernatant was used as a sample. The urine was centrifuged using i-Rose G rTPTP (manufactured by Diatron) to produce urinary glu-mil-trans-peptidase (7-glutamylyl). transpeptidase) activity was measured and, at the same time, corrected for urine width creatinine content measured using CRE-EN Kainos (manufactured by Kainos Corporation).

2) The blood sample was centrifuged at 5,000 rpm for 20 minutes to prepare fill plasma, and plasma B containing urea nitrogen-containing M (BUN) was measured using BUN Kainos (Kinos Co., Ltd.).

3) The extracted ^ was homogenized with phospholipase A2 activity. ⁽¹ ) Preparation of homogenate was performed by modifying the method described in the literature (J. Clin. Invest., 98, 365-371 (1996)). That is, the cells were homogenized with a Potter homogenizer in the presence of 10 mM Tris-HCl buffer (pH 7.4) containing ImM EDTA, and further added with 0.36 N sulfuric acid. One model 250D) was performed. After 60 minutes release on ice, the mixture was collected at 15,000 xg for 30 minutes at 4 ° C and collected. "1. ^ collected was subjected to-晚 dialysis against 50 1 Tris-HCl buffer (pH 7.4) containing 200 mM sodium chloride. After completion of the dialysis, the solution was centrifuged at 15000 × g for 30 minutes, and the supernatant was collected. 20 ml of the supernatant was subjected to measurement of phospholipase A2 activity. The method for measuring phospholipase A2 † ¾ was according to the method of “Reference ld)”. Phospholipase A2 activity is expressed as a percentage of the amount of tritium oleoleic acid released by hydrolysis of the group added to the reaction mixture (a large intestine 1 cleat product incorporating tritium-labeled oleic acid).

On the other hand, at 31 リ 5ϊ degrees of the homogenate, which was measured using BSA as a standard after passing a protein assay (manufactured by Bio-Radonna 1 :) on the sleeve, the phospholipase ゼ 2Α property was determined by the sleeve I “:% hydrolysis / min / Expressed in mg.

The phosphorylase A2 activity of 4 EJ I after cisplatin injection was reduced to | ¾ | 15.o Cisplatin-injected 'J 舴 was normal compared to ffif: (12.0 ± 1.1% hydrolysis / min / mg). Y was 3 (32.2 ± 4.2% hydrolysis / min / mg). Anti-human phospholipase Λ2 Monoclonal oral antibody injection-? おいて In this case, 0.1 mg, 0.3 mg 'of 12H5, l.Omg injection ^, 0.3 mg of 1.4, 1.Omg administration of phospholipase A2 by cisplatin injection Gu 'I' Was significantly reduced by 73%, 72%, 69%, 88% and 60%. On the other hand, the control antibody did not suppress the increase in phospholipase A2 activity. This indicates that the anti-human type II phospholipase A2 monoclonal antibody administered once 24 hours before cisplatin administration maintained its effect even in the kidney 4 days after cisplatin administration (C1 on 5 days after antibody administration).

FIG. 16 shows urinary y-GTP activity on day 1 after administration of cisplatin. A-GTP, an indicator of tubular injury, was increased about 5-fold (1324 ± 350 IU / mg creatinine) in the cisplatin-treated group compared to the normal group (260 ± 26 IU / mg creatinine). . Anti-human II ¾ phospholipase A2 monoclonal antibody injection-/ Γί: In the case of 0.3H, 12mg administration of 12H5, 1.4mg of 0.1mg, 0.3mg, 1.Omg injection of H-GTP by cisplatin injection The upper bound of activity was significantly reduced by 76%, 87%, 82%, 62% and 84%, respectively. However, the control monoclonal pile did not suppress the upper W of α-GTP.

FIG. 17 shows the plasma BUN i at 4 H after administration of cisplatin. The plasma BUN, which is the fingerling of the ^^^^^^^^^^^^^^^^^^^^^ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^ ^ ^ ^ ^ ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ は ^ ι は。。。。 ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ + ^ ^ In the group treated with anti-human type II phospholipase A2 monoclonal pile, 0.1%, 0.3mg, l.Orag administration of 12H5; 0.3mg, 1.4Omg injection of 1.4H, and plasma BUN by cisplatin administration in 1.4H injection The increase in arsenic was suppressed by 58%, 68%, 87%, 61% and 88%, respectively. However, the control holiday did not suppress BUN's field.

Based on the above, it was concluded that anti-human type II phospholipase A2 monoclonal antibody can be used as a drug to suppress the onset and progression of cisplatin and dystrophy by inhibiting phospholipase A2. . Industrial applicability

According to the present invention, an anti-human リ type phospholipase A2 monoclonal antibody, or a platinum compound of a protein or peptide having a U-harmful potential containing a part thereof, In particular, it was revealed that it can be used as a drug to suppress the onset and progress of renal injury caused by cisplatin administration. That is, it was possible to suppress nephrotoxicity, which is an obvious side effect, of cisplatin. By increasing the dose of cisplatin, it became possible to increase the efficacy of cisplatin.

Therefore, the pharmaceutical composition of the present invention is ffl as an inhibitor of harm caused by administration of a gold compound.乂, Iwakawa is also a prophylactic agent that stops the team by f-dosing before or during administration of gold compounds.

Sequence listing

(1) Name or name of applicant: Yamanouchi Pharmaceutical Co., Ltd.

(2) Title of invention: renal disorder improving agent

(3) Reference number: Y 1—802 PCT

(4) Application number:

(5) Date of application:

(6) The name of the country and the number of the application for which the priority application was filed:

Japan 1996 Patent Application No. 247635

(7) Priority date: June 27, 996

19 September 996

(8) Number of sequences: 27 SEQ ID NO: 1

Array length: 393

Sequence type: nucleic acid

Number of chains: double strand

Topology: linear

Sequence type: cDNA to mRNA

Origin

Cell line: 1.4

Array features

Characteristic symbol: CDS

Location: 1 .. 393

How the feature was determined: E

Array ATG GAG ACA GAC ACA CTC CTG CTA TGG GTG CTG CTG CTC TGG GTT CCA 48

Met Glu Thr Asp Thr Leu Leu Leu Trp Val Leu Leu Leu Trp Val Pro

1 5 10 15

GGT TCC ACA GGT GAC ATT GTG CTG ACC CAA TCT CCA GCT TCC TTG GCT 96

Gly Ser Thr Gly Asp lie Val Leu Thr Gin Ser Pro Ala Ser Leu Ala

20 25 30

GTG TCT TTA GGG CAG AGG GCC ACC ATA TCC TGC AGA GCC AGT GAA AGT 144 Val Ser Leu Gly Gin Arg Ala Thr lie Ser Cys Arg Ala Ser Glu Ser

35 40 45

GTT GAT AGT TAT GGC ATT AGT TTT ATG CAC TGG TAT CAG CAG AAA CCA 192 Val Asp Ser Tyr Gly lie Ser Phe Met His Trp Tyr Gin Gin Lys Pro

50 55 60

GGA CAG CCC CCC AAA CTC CTC ATT TAT CGT GCA TCC AAC CTA GAA TCT 240 Gly Gin Pro Pro Lys Leu Leu lie Tyr Arg Ala Ser Asn Leu Glu Ser

65 70 75 80

GGG ATC CCT GCC AGG TTT AGT GGC AGT GGG TCT AGG ACA GAA TTC ACC 288 Gly lie Pro Ala Arg Phe Ser Gly Ser Gly Ser Arg Thr Glu Phe Thr

85 90 95

CTC ACC ATT AAT CCT GTG GAG GCT GAT GAT GTT GCA ACC TAT CAC TGT 336 Leu Thr lie Asn Pro Val Glu Ala Asp Asp Val Ala Thr Tyr His Cys

100 105 110

CAG CAA AGT AAT GAG GAT CCA TTC ACG TTC GGC TCG GGG ACA AAG TTG 384 Gin Gin Ser Asn Glu Asp Pro Phe Thr Phe Gly Ser Gly Thr Lys Leu

115 120 125

GAA ATA AAA 393 Glu lie Lys 130 SEQ ID NO: 2

Sequence length: 131.

Sequence type: amino acid

Topology: linear

Sequence type: Protein

Origin

Cell line: 1.4

Array

Met Glu Thr Asp Thr Leu Leu Leu Trp Val Leu Leu Leu Trp Val Pro

1 5 10 15

Gly Ser Thr Gly Asp lie Val Leu Thr Gin Ser Pro Ala Ser Leu Ala

20 25 30

Val Ser Leu Gly Gin Arg Ala Thr lie Ser Cys Arg Ala Ser Glu Ser

35 40 45

Val Asp Ser Tyr Gly lie Ser Phe Met His Trp Tyr Gin Gin Lys Pro

50 55 60

Gly Gin Pro Pro Lys Leu Leu He Tyr Arg Ala Ser Asn Leu Glu Ser 65 70 75 80

Gly lie Pro Ala Arg Phe Ser Gly Ser Gly Ser Arg Thr Glu Phe Thr

85 90 95

Leu Thr lie Asn Pro Val Glu Ala Asp Asp Val Ala Thr Tyr His Cys

100 105 110

Gin Gin Ser Asn Glu Asp Pro Phe Thr Phe Gly Ser Gly Thr Lys Leu

115 120 125 Glu lie Lys

130 SEQ ID NO: 3

Sequence length: 408

Sequence type: nucleic acid

Number of chains: double strand

Topology: linear

Sequence type: cDNA to mRNA

Origin

Cell line: 1.4

Array features

Characteristic symbol: CDS

Location: 1.. 408

How the feature was determined: E

Array

ATG AGA GTG CTG ATT CTT TTG TGG CTG TTC ACA GCC TTT CCT GGT TTC 48

Met Arg Val Leu He Leu Leu Trp Leu Phe Thr Ala Phe Pro Gly Phe

1 5 10 15

CTG TCT GAT GTG CAG CTT CAG GAA TCG GGA CCT GGC CTG GTG AAA CCT 96

Leu Ser Asp Val Gin Leu Gin Glu Ser Gly Pro Gly Leu Val Lys Pro

20 25 30

TCT CAA TCT CTG TCC CTC ACC TGC ATG GTC ACT GGC TAC TCA ATC ACC 144 Ser Gin Ser Leu Ser Leu Thr Cys Met Val Thr Gly Tyr Ser lie Thr

35 40 45

AGT GAT TAT GCC TGG AAC TGG ATC CGG CAG TTT CCG GGA AAC AAA CTG 192 Ser Asp Tyr Ala Trp Asn Trp He Arg Gin Phe Pro Gly Asn Lys Leu

50 55 60

GAG CGG ATG GGA TAC ATA AGG TAC AGT GGT TAC ACT AGC TAC AAC CCA 240 Glu Arg Met Gly Tyr lie Arg Tyr Ser Gly Tyr Thr Ser Tyr Asn Pro

65 70 75 80

TCT CTC AAA AGT CGA ATC TTT ATC ACG CGA GAC ACA TCC CAG AAC CAG 288 Ser Leu Lys Ser Arg lie Phe lie Thr Arg Asp Thr Ser Gin Asn Gin

85 90 95

TTC TTC CTA CAT TTG ACT TCT GTG ACT ACT GAG GAC ACA GCC ACA TAT 336 Phe Phe Leu His Leu Thr Ser Val Thr Thr Glu Asp Thr Ala Thr Tyr

100 105 110

TAC TGT ACA AGA GAC TTG GAC GCC TGG TAC TTC GAT GTT TGG GGC GCA 384 Tyr Cys Thr Arg Asp Leu Asp Ala Trp Tyr Phe Asp Val Trp Gly Ala

115 120 125

GGG ACA ACG GTC ACC GTC TCC TCA 408 Gly Thr Thr Val Thr Thr Val Ser Ser

130 135 SEQ ID NO: 4

Sequence length: 136

Sequence type: amino acid

Topology: linear

Type: Protein

Origin

Cell line: 1.4

Array Met Arg Val Leu lie Leu Leu Trp Leu Phe Thr Ala Phe Pro Gly Phe 1 5 10 15

Leu Ser Asp Val Gin Leu Gin Glu Ser Gly Pro Gly Leu Val Lys Pro

20 25 30

Ser Gin Ser Leu Ser Leu Thr Cys Met Val Thr Gly Tyr Ser He Thr

35 40 45

Ser Asp Tyr Ala Trp Asn Trp lie Arg Gin Phe Pro Gly Asn Lys Leu

50 55 60

Glu Arg Met Gly Tyr He Arg Tyr Ser Gly Tyr Thr Ser Tyr Asn Pro 65 70 75 80

Ser Leu Lys Ser Arg He Phelie Thr Arg Asp Thr Ser Gin Asn Gin

85 90 95

Phe Phe Leu His Leu Thr Ser Va] Thr Thr Glu Asp Thr Ala Thr Tyr

100 105 110

Tyr Cys Thr Arg Asp Leu Asp Ala Trp Tyr Phe Asp Val Trp Gly Ala

115 120 125

Gly Thr Thr Val Thr Val Ser Ser

130 135 SEQ ID NO: 5

Array length: 15

Sequence type: amino acid

Topology: linear

Sequence type: Protein

Origin

Cell line: 1.4 Array

Arg Ala Ser Glu Ser Val Asp Ser Tyr Gly lie Ser Phe Met His 1 5 10 15 SEQ ID NO: 6

Array length: 7

Sequence type: amino acid

Topology: linear

Sequence type: Protein

Origin

Cell line: 1.4

Array

Arg Ala Ser Asn Leu Glu Ser

1 5 SEQ ID NO: 7

Array length: 9

Sequence type: amino acid

Topology: linear

Sequence type: Protein

Origin

Cell line: 1.4

Array

Gin Gin Ser Asn Glu Asp Pro Phe Thr

1 5 SEQ ID NO: 8

Array length: 6

Sequence type: amino acid

Topology: linear

Sequence type: Protein

Origin

Cell line: 1.4

Array

Ser Asp Tyr Ala Trp Asn

1 5 SEQ ID NO: 9

Array length: 16

Sequence type: amino acid

Topology: linear

Sequence type: Protein

Origin

Cell line: 1.4

Array

Tyr lie Arg Tyr Ser Gly Tyr Thr Ser Tyr Asn Pro Ser Leu Lys Ser 1 5 10 15 SEQ ID NO: 10

Array length: 9

Sequence type: amino acid

Topology: linear Array type:

Origin

Cell line: 1.4

Array

Asp Leu Asp Ala Trp Tyr Phe Asp Val

1 5 SEQ ID NO: 11

Array length: 22

Sequence type: nucleic acid

Topology: linear

Sequence type: Other nucleic acid Synthetic DNA

Array

GGCACCTCCA GATGTTAACT GC 22 SEQ ID NO: 12

Array length: 21

Sequence type: nucleic acid

Topology: linear

Sequence type: Other nucleic acid Synthetic DNA

Array

GGAARTAVCC CTTGACCAGG C 21

Array number: 13

Array length: 48

Sequence type: nucleic acid Topology: linear

Sequence type: Other nucleic acid Synthetic DNA

Array features

Location: 36,37,41,42,46,47

Other features: N represents inosine (I).

Array

CUACUACUAC UAGGCCACGC GTCGACTAGT ACGGGNNGGG NNGGGNNG 48 SEQ ID NO: 14

Array length: 46

Sequence type: nucleic acid

Topology: ifi chain

Sequence type: Other nucleic acid Synthetic DNA

Array

TATAGAGCTC AAGCTTGGAT GGTGGGAAGA TGGATACAGT TGGTGC 46 SEQ ID NO: 15

Array length: 50

Sequence type: nucleic acid

Topology: linear

Sequence type: Other nucleic acid Synthetic DNA

Array

TATAGAGCTC AAGCTTCCAG TGGATAGACH GATGGGGSTG TYGTTTTGGC 50 SEQ ID NO: 16

Array length: 20 Sequence type: nucleic acid

Topology: linear

Sequence type: Other nucleic acid Synthetic DNA

Array

ACCGAGCTCG GATCCACTAG 20 SEQ ID NO: 17

Array length: 21

Sequence type: nucleic acid

Topology: linear

Sequence type: Other nucleic acid Synthetic DNA

Array

ATGCATGCTC GAGCGGCCGC C 21 SEQ ID NO: 18

Sequence length: 381

Sequence type: nucleic acid

Number of chains: double strand

Topology: linear

Sequence type: cDNA to mRNA

Origin

Cell line: 12H5

Array features

Characteristic symbols

Location: 1.. 381

How the features were determined: E Array

ATG GTA TCC ACA CCT CAG TTC CTT GTA CTT TTG CTT TTC TGG ATT CCA 48 Met Val Ser Thr Pro Gin Phe Leu Val Leu Leu Leu Phe Trp lie Pro

1 5 10 15

GCC TCC AGA GGT GAC ATC TTG CTG ACT CAG TCT CCA GCC ATC CTG TCT 96 Ala Ser Arg Gly Asp lie Leu Leu Thr Gin Ser Pro Ala lie Leu Ser

20 25 30

GTG AGT CCA GGA GAA AGA GTC ACT TTC TCC TGC AGG GCC AGT CAG AGC 144 Val Ser Pro Gly Glu Glu Arg Val Thr Phe Ser Cys Arg Ala Ser Gin Ser

35 40 45

ATT GGC ACA AGC ATA CAC TGG TAT CAG CAA AGA ACA AAT GGT TCT CCA 192 l ie Gly Thr Ser He His Trp Tyr Gin Gin Arg Thr Asn Gly Ser Pro

50 55 60

AGG CTT CTC ATA AAG TAT GAA TCT GAG GCT ATA TCT GGG ATC CCT TCC 240 Arg Leu Leu lie Lys Tyr Glu Ser Glu Ala He Ser Gly lie Pro Ser

65 70 75 80

AGA TTT AGT GGC AGT GGA TCA GGG ACA GAT TTT ACT CTA AGT ATT AAC 288 Arg Phe Ser Gly Ser Gly Ser Gly Thr Asp Phe Thr Leu Ser lie Asn

85 90 95

AGT GTG GAG TCT GAA GAT ATT GCA GAT TAT TAC TGT CAA CAA AGT CAT 336 Ser Val Glu Ser Glu Asp lie Ala Asp Tyr Tyr Cys Gin Gin Ser His

100 105 110

AGC TGG CCA TTC ACG TTC GGC TCG GGG ACA AAG TTG GAA ATA AAC 381 Ser Trp Pro Phe Thr Phe Gly Ser Gly Thr Lys Leu Glu lie Asn

115 120 125 SEQ ID NO: 19

Array length: 127

Sequence type: amino acid

Topology: linear

Sequence type: protein

Origin

Cell line: 12H5

Array

Met Val Ser Thr Pro Gin Phe Leu Val Leu Leu Leu Phe Trp lie Pro

1 5 10 15

Ala Ser Arg Gly Asp lie Leu Leu Thr Gin Ser Pro Ala He Leu Ser

20 25 30

Val Ser Pro Gly Glu Arg Val Thr Phe Ser Cys Arg Ala Ser Gin Ser

35 40 45

l ie Gly Thr Ser l ie His Trp Tyr Gin Gin Arg Thr Asn Gly Ser Pro

50 55 60

Arg Leu Leu lie Lys Tyr Glu Ser Glu Ala He Ser Gly lie Pro Ser 65 70 75 80

Arg Phe Ser Gly Ser Gly Ser Gly Thr Asp Phe Thr Leu Ser lie Asn

85 90 95

Ser Val Glu Ser Glu Asp He Ala Asp Tyr Tyr Cys Gin Gin Ser His

100 105 110

Ser Trp Pro Phe Thr Phe Gly Ser Gly Thr Lys Leu Glu lie Asn

115 120 125 SEQ ID NO: 0 Sequence length: 411

Sequence type: nucleic acid

Number of chains: double strand

Topology: linear

Sequence type: cDNA to mRNA

Origin

Cell line

Array features

Characteristic notation ^: CDS

Position ^: 1... 411

How the features were determined: E

Array

ATG GGA TGG AGC TAT ATC ATC CTC TTT TTG GTA GCA ACA GCT ACA GAT 48 Met Gly Trp Ser Tyr lie lie Leu Phe Leu Val Ala Thr Ala Thr Asp

1 5 10 15

GTC CAC TCC CAG GTC CAA CTG CAG CAG CCT GGG GCT GAA CTG GTG GAG 96 Val His Ser Gin Val Gin Leu Gin Gin Pro Gly Ala Glu Leu Val Glu

20 25 30

CCT GGG GCT TCA GTG AAG CTG TCC TGC AAG GCT TCT GGC TAC ACC TTC 144 Pro Gly Ala Ser Val Lys Leu Ser Cys Lys Ala Ser Gly Tyr Thr Phe

35 40 45

ACC ACC TAC TGG ATG CAC TGG GTG AAG CAG AGC CCT GGA CAA GGC CTT 192 Thr Thr Tyr Trp Met His Trp Val Lys Gin Ser Pro Gly Gin Gly Leu

50 55 60

GAG TGG ATT GGA GAG ATT AAC CCT ACC AAC GGT CGA ACT AAT TAC AAT 240 Glu Trp lie Gly Glu He Asn Pro Thr Asn Gly Arg Thr Asn Tyr Asn 65 70 75 80

GAG AAT TTC AGG ACC AAG AAT AAG GCC ACA CTG ACT GTA GAC AAA TCC 288 Glu Asn Phe Arg Thr Lys Asn Lys Ala Thr Leu Thr Val Asp Lys Ser

85 90 95

TCC ACC ACA GCC TAC ATG CAC CTC AGC AGC CTG ACA TCT GAG GAC TCT 336

Ser Thr Thr Ala Tyr Met His Leu Ser Ser Leu Thr Ser Glu Asp Ser

100 105 110

GCG GTC TAT TTT TGT GTA GGG GGG CTG GAC TAC TTT GAC TAC TGG GGC 384

Ala Val Tyr Phe Cys Val Gly Gly Leu Asp Tyr Phe Asp Tyr Trp Gly

115 120 125

CAA GGC ACC ACT CTC ATA GTC TCC TCA 411

Gin Gly Thr Thr Leu lie Val Ser Ser

130 135 SEQ ID NO: 21

Sequence length: 137

Sequence type: amino acid

Topology: linear

Sequence type: protein

Origin

Cell line: 12H5

Array

Met Gly Trp Ser Tyr l ie He Leu Phe Leu Val Ala Thr Ala Thr Asp

1 5 10 15

Val His Ser Gin Val Gin Leu Gin Gin Pro G ly Ala Glu Leu Val Glu

20 25 30 01 9 I

STH an S Jqi ^ ID 8U J3S "to s BIV Say

9Η2Ϊ ^^ Λ (Ά-

mm:-^ α.ψ ^ u:

zz: «n

set οει S s Ι¾Λ 9Π ridi jq 丄 Jq Xif) UJO ZI OZl 3Π

^ 19 djjc JXx dsv aqd dsy naq A g Xig Ι¾Λ SAO aqj αλχ [ΒΛ B V

Οΐΐ 901 0ΟΪ

J3S dsy n [3 J8S J¾ no J3s J9S naq SIH ^ O J ¾IV J l J¾ J8S

S6 06 S8

J9S sA dsv ΐ ^ Λ J¾ jqx ¾iv s ^ usy jq Sjy 9qj usy

08 SZ OA 99 usv usv J¾ SJV iD usy J¾ OJJ usy 3 [n {g io dj 丄

09 SS OS uig Xig OJJ jas i g eight dJi SIH J J¾ J¾

9t-0 SC aqd Jqi J ^ IV s s J9S na ^ sq oct J9S ¾IV OJJ

lflZOIL6A £ IL3d LZP6PIL6 OfA. SEQ ID NO: 23

Array length: 7

Sequence type: amino acid

Topology: linear

Sequence type: protein

Origin

Cell line: 12H5

Array

Tyr Glu Ser Glu Ala lie Ser

1 5 SEQ ID NO: 24

Array length: 9

Sequence type: amino acid

Topology: linear

Sequence type: protein

Origin

Cell line:

Array

Gin Gin Ser His Ser Trp Pro Phe Thr 15 SEQ ID NO: 25

Array length: 5

Sequence type: amino acid

Topology: linear Sequence type: protein

Origin

Cell line: 12H5

Array

Thr Tyr Trp Met His

1 5 SEQ ID NO: 26

Array length: 19

Sequence type: amino acid

Topology: linear

Sequence type: protein

Origin

Cell line: 12H5

Array

Glu l e Asn Pro Thr Asn Gly Arg Thr Asn Tyr Asn Glu Asn Phe Arg

1 5 10 15

Thr Lys Asn SEQ ID NO: 27

Good array: 7

Sequence type: amino acid

Topology: linear

Sequence type: protein

Origin

Cell line: 12H5

S I

J dsy 9qd dAi dsy λ {urn

19

\ ZZQIL6d £ l∑DA LZ 6PIL6 OAX-

Claims

The scope of the claims

1. An agent for ameliorating renal damage caused by administration of a platinum compound, comprising, as an active ingredient, a monoclonal antibody that inhibits the activity of type II phospholipase A2, or a protein or a peptide containing a part thereof and having the inhibitory ability. Pharmaceutical composition.

2. An agent for ameliorating renal damage caused by administration of a platinum compound, comprising a monoclonal antibody having an action of releasing type II phospholipase A2 bound to a cell membrane, or a protein or a peptide containing the action and containing a part thereof as an active ingredient. A pharmaceutical composition which is

3. Monoclonal antibody which inhibits the activity of type II phospholipase A2 and releases type II phospholipase A2 bound to the cell membrane, or a protein or a peptide comprising a part thereof and having the inhibitory ability as an active ingredient A pharmaceutical composition which is an agent for improving renal impairment due to administration of a platinum compound.

4. I type I phospholipase A2 is derived from human. 4. The pharmaceutical composition according to any one of claims 3 to 3.

5. A monoclonal antibody capable of inhibiting the activity of human-derived type II phospholipase A2 and inhibiting the activity of monkey-derived type II phospholipase A2 and / or mouse-derived type II phospholipase A2. The pharmaceutical composition according to claim 1, which is present.

6. The monoclonal antibody has the action of releasing human-derived type II phospholipase A2 bound to cell membranes, and the action of releasing monkey-derived type II phospholipase A2 and Z bound to cell membranes or mouse type II phospholipase A2. 3. The pharmaceutical composition according to claim 2, which is a monoclonal antibody having the antibody.

7. The monoclonal antibody can inhibit the activity of human type II phospholipase A2 and inhibit the activity of monkey type II phospholipase A2 and / or mouse type II phospholipase A2, and bind to cell membrane 4. The pharmaceutical composition according to claim 3, which is a monoclonal antibody having a function of releasing type II phospholipase A2.

8. The pharmaceutical composition according to any one of claims 5 to 7, wherein the monoclonal antibody is a monoclonal antibody capable of binding to an antibody to which the monoclonal antibody 12H5, 10.1, or 1.4 binds.