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JPH0469995B2 - - Google Patents
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JPH0469995B2 - - Google Patents

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Publication number
JPH0469995B2
JPH0469995B2 JP58176772A JP17677283A JPH0469995B2 JP H0469995 B2 JPH0469995 B2 JP H0469995B2 JP 58176772 A JP58176772 A JP 58176772A JP 17677283 A JP17677283 A JP 17677283A JP H0469995 B2 JPH0469995 B2 JP H0469995B2
Authority
JP
Japan
Prior art keywords
antibody
afp
hybridoma
membrane
plc
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
JP58176772A
Other languages
Japanese (ja)
Other versions
JPS6066979A (en
Inventor
Kazuhiro Nagaike
Minoru Muramatsu
Seiko Hosokawa
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mitsubishi Chemical Corp
Original Assignee
Mitsubishi Chemical Industries Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mitsubishi Chemical Industries Ltd filed Critical Mitsubishi Chemical Industries Ltd
Priority to JP58176772A priority Critical patent/JPS6066979A/en
Publication of JPS6066979A publication Critical patent/JPS6066979A/en
Publication of JPH0469995B2 publication Critical patent/JPH0469995B2/ja
Granted legal-status Critical Current

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  • Micro-Organisms Or Cultivation Processes Thereof (AREA)
  • Medicines Containing Antibodies Or Antigens For Use As Internal Diagnostic Agents (AREA)

Description

【発明の詳細な説明】[Detailed description of the invention]

本発明はハイブリドーマに関する。 ガンのマーカーとして、α−フエトプロテイン
(AFP)及び胎児性抗原(CEA)が、よく知られ
ている。CEAは、消化器系のガン細胞の膜表面
に存在するとされている。他方、AFPは、多く
の肝ガン及びセルラインで産生することが認めら
れているが、細胞質に存在することが確かめられ
ているにすぎず、膜表面に存在するか否かは必ず
しも明らかではない。 本発明者らは、モノクローナル抗体に制ガン剤
や毒素を結合させる、いわゆる“ミサイル療法”
に適したAFPに対するモノクローナル抗体を見
出すべく、種々検討を行ない、膜表面に存在する
AFP及びそれを認識するモノクローナル抗体を
見出し、本発明に到達した。 すなわち、本発明の要旨は、α−フエトプロテ
イン(AFP)で免疫したマウス脾臓細胞とマウ
スミエローマ細胞との細胞融合により得られるハ
イブリドーマで、α−フエトプロテインAFPを
産生するセルラインの表面上に存在するエピトー
プを認識するモノクローナル抗体を産生すること
を特徴とするハイブリドーマにある。 以下、本発明を詳細に説明する。 本発明に係るハイブリドーマは次のような方法
で得られる。 すなわち、まず、ヒト胎盤由来のAFPを、た
とえばBALB/Cマウス等に免疫した後、脾臓
を摘出し、ポリエチレングリコールを用い、P3
−U1等のマウスミエローマ細胞と融合し、常法
によりハイブリドーマを得る。そしてハイブリド
ーマ上清よりモノクローナル抗体を得る。 つぎに、常法により得られたこれらの抗体を用
いて、肝ガンセルライン(たとえば、PLC、
KN、NuE)を免疫組織化学的に染色し、陽性を
示す抗体を選択する。この検出は、アビオシン:
ビオチン化ワサビペルオキシダーゼコンプレツク
ス(ABC)キツトを用い、ホースラデイシユ・
ペルオキシダーゼの酵素活性により、ジアミノベ
ンジジンを基質として用いて行なわれる。 この選択された抗体を産生するハイブリドーマ
を選択し、本発明に係るハイブリドーマを得る。 本発明に係るハイブリドーマより、細胞膜表面
に存在するAFPを認識するモノクローナル抗体
を大量に得るには、本ハイブリドーマを
BALB/Cマウスの腹腔内に注射し、増殖させ、
腹水を採取することにより行なうことができる。
また、上記ハイブリドーマを培養タンクで大量培
養する方法によることもできる。 本発明に係るハイブリドーマが産生するモノク
ローナル抗体は、次のような性質を有する。 (i) 14Cラベル化した本抗体を用いて、胎盤由来
AFPがPLC肝ガンセルラインの膜に対する結
合を阻害するか否かをみると、AFPが抗体と
セルライン膜との結合を競合的に阻害すること
がわかる。 (ii) PLCセルラインを 14C−ロイシンでラベル
し、その膜成分を“トリトンX”で可溶化し、
本抗体との結合をみると、明らかな結合性が認
められる。また、培養上清中の分泌蛋白にも結
合性が確認される。 (iii) PLCセルラインの可溶化膜成分ならびに培
養上清中の抗体反応物を、オフアレル
(O′Farrel)らの方法に準じて二次元電気泳動
を行なうと、膜由来、培養上清由来のいずれの
結合物もAFPの性質(等電点、分子量)を有
することがわかる。 (iv) PLCセルラインの膜分画をトリプシン、プ
ロテアーゼ、チモトリプシン等の蛋白質分電酵
素で消化すると、本抗体との結合性は低下又は
低下傾向を示す。 また、“トリトンX”処理で低下傾向を示し、
リパーゼ処理により、その結合性は増加する。 本発明に係るハイブリドーマは、細胞膜表面に
存在するAFPを認識するモノクローナル抗体を
産生する。 この抗体はたとえば肝ガン治療、特にミサイル
療法用の抗体として有用であり、さらに細胞診等
の診断・検査薬として有用である。 以下、実施例により本発明をさらに詳細に説明
する。 実施例 1 (1) マウスモノクローナル抗体の作製: ヒトAFPとして、胎盤より精製された純度
99%以上で、免疫化学的にヒトアルブミン
(HSA)と反応しないもの((株)森永生科研製)
を用いた。 このヒトAFPを、BALB/Cマウスに10μ
g、1回、フロイントの完全アジユバントとと
もに感作し、最終免疫は静脈より注射し、3日
後に脾臓を摘出し、ポリエチレングリコール
#400を用いP3−U1マウスミエローマと融合
し、常法によりハイブリドーマを作製した。な
お、ここで使用したマウス脾臓細胞は、8.2×
107個、P3−U1マウスミエローマ細胞は3.2×
107個である。クローニングは限界希釈法を用
い、同法を4回以上行なつた。なお、大量の抗
体は、BALB/Cマウス腹水系により採取し
た。 抗AFP抗体を産生するハイブリドーマは、
6回の融合により、約400クローンが選別され
た。そのうち、11クローンの培養上清の抗体価
IgG量を表1に示す(上清を10倍濃縮した後、
測定。)。
The present invention relates to hybridomas. α-fetoprotein (AFP) and embryonic antigen (CEA) are well known as cancer markers. CEA is said to exist on the membrane surface of cancer cells in the digestive system. On the other hand, AFP has been recognized to be produced in many liver cancers and cell lines, but it has only been confirmed that it exists in the cytoplasm, and it is not necessarily clear whether it exists on the membrane surface or not. . The present inventors have developed the so-called "missile therapy" in which anticancer drugs and toxins are attached to monoclonal antibodies.
In order to find a monoclonal antibody against AFP that is suitable for
We discovered AFP and a monoclonal antibody that recognizes it, and arrived at the present invention. That is, the gist of the present invention is a hybridoma obtained by cell fusion of mouse spleen cells immunized with α-fetoprotein (AFP) and mouse myeloma cells, and a hybridoma obtained by cell fusion of mouse myeloma cells and mouse spleen cells immunized with α-fetoprotein (AFP). A hybridoma characterized by producing a monoclonal antibody that recognizes an epitope present in The present invention will be explained in detail below. The hybridoma according to the present invention can be obtained by the following method. That is, first, after immunizing, for example, BALB/C mice with AFP derived from human placenta, the spleen was removed, and P3 was inoculated using polyethylene glycol.
-Fuse with mouse myeloma cells such as U1 to obtain a hybridoma by a conventional method. Monoclonal antibodies are then obtained from the hybridoma supernatant. Next, using these antibodies obtained by conventional methods, liver cancer cell lines (e.g., PLC,
KN, NuE) are immunohistochemically stained and antibodies showing positive are selected. This detection is based on abiocin:
Using a biotinylated horseradish peroxidase complex (ABC) kit, horseradish
The enzymatic activity of peroxidase is carried out using diaminobenzidine as a substrate. A hybridoma producing this selected antibody is selected to obtain a hybridoma according to the present invention. In order to obtain a large amount of monoclonal antibodies that recognize AFP present on the cell membrane surface from the hybridoma of the present invention, the hybridoma of the present invention can be used.
Injected intraperitoneally into BALB/C mice and allowed to grow.
This can be done by collecting ascites fluid.
Alternatively, the above hybridoma may be cultured in large quantities in a culture tank. The monoclonal antibody produced by the hybridoma according to the present invention has the following properties. (i) Using this 14 C-labeled antibody, placenta-derived
Examining whether AFP inhibits the binding of the PLC liver cancer cell line to the membrane, it is found that AFP competitively inhibits the binding of antibodies to the cell line membrane. (ii) Label the PLC cell line with 14 C-leucine, solubilize its membrane components with “Triton
When looking at the binding with this antibody, clear binding is observed. Furthermore, binding to secreted proteins in the culture supernatant was confirmed. (iii) When two-dimensional electrophoresis was performed on solubilized membrane components of the PLC cell line and antibody reactants in the culture supernatant according to the method of O'Farrel et al., it was found that membrane-derived and culture supernatant-derived It can be seen that both bound substances have the properties (isoelectric point, molecular weight) of AFP. (iv) When the membrane fraction of the PLC cell line is digested with a protein-distributing enzyme such as trypsin, protease, or thymotrypsin, the binding property with the present antibody decreases or tends to decrease. Furthermore, treatment with “Triton X” showed a decreasing tendency;
Lipase treatment increases its binding properties. The hybridoma according to the present invention produces a monoclonal antibody that recognizes AFP present on the cell membrane surface. This antibody is useful, for example, as an antibody for liver cancer treatment, especially missile therapy, and is further useful as a diagnostic/testing agent for cytodiagnosis and the like. Hereinafter, the present invention will be explained in more detail with reference to Examples. Example 1 (1) Production of mouse monoclonal antibody: Purity purified from placenta as human AFP
99% or more and does not immunochemically react with human albumin (HSA) (manufactured by Morinaga Seikaken Co., Ltd.)
was used. This human AFP was administered at 10μ to BALB/C mice.
g. Sensitized once with Freund's complete adjuvant, the final immunization was given intravenously, the spleen was removed 3 days later, fused with P3-U1 mouse myeloma using polyethylene glycol #400, and hybridomas were isolated using the standard method. Created. The mouse spleen cells used here were 8.2×
10 7 cells, P3−U1 mouse myeloma cells 3.2×
There are 10 7 pieces. Cloning was carried out using the limiting dilution method, which was repeated four or more times. Note that a large amount of antibody was collected using the BALB/C mouse ascites system. Hybridomas that produce anti-AFP antibodies are
Approximately 400 clones were selected after 6 rounds of fusion. Among them, the antibody titer of the culture supernatant of 11 clones
The amount of IgG is shown in Table 1 (after concentrating the supernatant 10 times,
measurement. ).

【表】【table】

【表】 (2) 抗体の選択 (a) セルラインは、一週間以上、イーグル
MEMを基本とした培地に代えて培養後、リ
ン酸緩衝液で4回洗浄し、(i)直ちにハイブリ
ドーマ培養上清と反応させる方法、及び、(ii)
4%パラホルムアルデヒド固定後、メタノー
ル、H2O2溶液で、内因性酵素を不活化し、
抗体と反応させる方法、を用いた。抗体の検
出はベクタスタイン(Vectastain)社の
ABCキツトを用い、ホースラデイツシユ・
ペルオキシダーゼの酵素活性により、基質と
してジアミノベンジジンを用いて行なつた。 (b) セルラインと維持 ヒト肝ガンのセルラインとしては、
KN、PLC、また、胎児性肝細胞由来のガン
細胞株NuEを、その他コントロールとして、
ヒト胃ガン培養株KATO、MKN45、大腸
ガンC1の各細胞株を用いた。なお、培養細
胞は、20%牛胎児血清含有RPMI1640の培養
液で37.0℃、5%CO2、95%Airの条件で維
持、増殖させた。 (c) 上記(1)の抗AFPモノクローナル抗体を含
む培養上清及びその希釈物(28倍まで)を肝
ガンセルラインPLC;KNならびに胎児肝細
胞NuEと免疫組織化学的に反応させたとこ
ろ、19F12に強い反応を認めた。この反応は
無固定標本でも、固定、メタノール、H2O2
処理法のいずれでも同様であつた。 また、コントロールとして市販の抗AFP
モノクローナル抗体(ハイブリテツク社製)
を、抗体価として103にあわせて反応させた
が、他のハイブリドーマクローンと同様に陽
性反応は認められなかつた。 19F12は表1に示すように抗体価が特に強
いものでもなく、またIgG量が多いというも
のでもないが、上記のように、他と異なり陽
性を示した。 一方、AFPの産生が認められないセルラ
インMKN45、KATO、C1にはこの19F12
は反応しなかつた。 (3) ハイブリドーマの選択 上記のように選択されたモノクローナル抗
体を産生するハイブリドーマを選び(この場
合、19F12)、本発明に係るハイブリドーマ
を得る。 参考例 1 本発明に係るハイブリドーマが産生するモノク
ローナル抗体について、さらにつぎのような検討
を行なつた。 A 胎盤AFPとPLC膜との本抗体の競合反応: (a) 抗体の 14Cラベル: ロイシンを含まないRPMI1640培地に
5μCi/mlの濃度のu− 14C−ロイシンを加
え、5×106セル/mlの濃度で60時間培養し、
その培養液を“プロテインAセフアロース”
によつて精製し、 14Cラベル化モノクローナ
ル抗体とした。 (b) 肝ガンセルラインPLCのラベルと膜分画
の可溶化: 上記(a)と同様の条件で培養し、培地、細胞
を回収して用いた。膜分画は、細胞を超音波
処理後、10万×g、60分の沈査を2回洗浄し
て用いた。膜の可溶化は、1%“トリトン
(Triton)100”、20mMトリスーHCl緩衝
液(PH8.0)で行ない、抗体との反応には、
リン酸−生理的食塩水緩衝液で10倍希釈して
用いた。 (c) PD10カラム(フアルマシア社製)によつ
て脱塩、リン酸−生理的食塩水緩衝液で平衡
化した 14Cラベル抗体を用い、PLCセルライ
ン膜と胎盤由来AFPと競合実験を行なつた。
その結果を図1に示す。図1から明らかなよ
うに、AFPを反応液中に加えた場合、その
濃度に依存してPLC膜に結合する抗体は少
なくなつた。また、AFPと抗体の結合物と
みられる可溶性の放射能もAFP濃度に依存
して増加した。 B 二次元電気泳動法によるモノクローナル抗体
結合物質の検出: 肝ガンセルラインPLCを 14C−ロイシンでラ
ベルし、その培養上清中の高分子性物を集め、
本抗体と反応させプロテインA結合性の放射能
の存否をみると、明らかな抗体結合物が認めら
れた。 また、培養液10ml、細胞5×106由来の膜可
溶画分を2μgの本抗体と反応後“プロテイン
A”で精製し、抗体結合物質を得た。 これらの結合物をオフアレルらの方法にした
がつて、二次元電気泳動法によつて検出する
と、本抗体由来のH鎖、L鎖の他に分子量
64K、等電点4.7のAFPが認められた。 これらのスポツトは、すべて、PLC培養上
清と可溶化膜で同一であつた。 C 肝ガンセルラインPLC膜の酵素、薬剤処理
後の結合性: PLCの膜分画をトリプシン、プロテアーゼ、
チモトリプシン等の蛋白分解酵素で消化した場
合、本抗体の結合性は低下あるいは低下傾向を
示した。また“Triton100処理でも、低下傾
向を示したが、リガーゼの処理によつては逆に
その結合性が増加した。
[Table] (2) Selection of antibodies (a) Cell lines should be incubated with Eagle for at least one week.
After culturing in MEM-based medium, washing four times with phosphate buffer, (i) immediately reacting with hybridoma culture supernatant, and (ii)
After fixation with 4% paraformaldehyde, endogenous enzymes were inactivated with methanol and H2O2 solution .
A method of reacting with antibodies was used. Antibody detection was performed using Vectastain's
Using ABC kit, horseradish
Due to the enzymatic activity of peroxidase, diaminobenzidine was used as the substrate. (b) Cell lines and maintenance Cell lines for human liver cancer include:
KN, PLC, and fetal liver cell-derived cancer cell line NuE were used as other controls.
Human gastric cancer culture lines KATO, MKN45, and colon cancer C1 cell lines were used. The cultured cells were maintained and grown in a culture solution of RPMI1640 containing 20% fetal bovine serum at 37.0° C., 5% CO 2 and 95% Air. (c) Immunohistochemical reaction of the culture supernatant containing the anti-AFP monoclonal antibody (1) above and its dilution (up to 2 to 8 times) with the liver cancer cell line PLC; KN and fetal liver cell NuE. , a strong reaction was observed to 19F12. This reaction can be performed with unfixed specimens, with fixed, methanol, H 2 O 2
The results were similar for all treatment methods. We also used commercially available anti-AFP as a control.
Monoclonal antibody (manufactured by Hybritech)
was reacted with an antibody titer of 10 3 , but as with other hybridoma clones, no positive reaction was observed. As shown in Table 1, 19F12 does not have a particularly strong antibody titer nor does it have a large amount of IgG, but as mentioned above, unlike the others, it showed positive. On the other hand, cell lines MKN45, KATO, and C1, in which AFP production is not observed, have this 19F12
did not react. (3) Selection of hybridoma A hybridoma producing the monoclonal antibody selected as described above is selected (in this case, 19F12) to obtain a hybridoma according to the present invention. Reference Example 1 The following study was further conducted on the monoclonal antibody produced by the hybridoma according to the present invention. A Competitive reaction of this antibody with placenta AFP and PLC membrane: (a) 14C label of antibody: in RPMI1640 medium without leucine
U- 14C -leucine was added at a concentration of 5 μCi/ml and cultured for 60 hours at a concentration of 5 x 106 cells/ml.
The culture solution is “Protein A Sepharose”
The antibody was purified by 14 C-labeled monoclonal antibody. (b) Labeling of liver cancer cell line PLC and solubilization of membrane fraction: Cultured under the same conditions as in (a) above, and the culture medium and cells were collected and used. The membrane fraction was used after sonicating the cells, washing the cells twice at 100,000 x g for 60 minutes, and washing the cells twice. Membrane solubilization was performed with 1% “Triton 100”, 20mM Tris-HCl buffer (PH8.0), and for reaction with antibodies,
It was used after being diluted 10 times with phosphate-physiological saline buffer. (c) Competitive experiment with PLC cell line membrane and placenta-derived AFP using 14 C-labeled antibody desalted using a PD10 column (manufactured by Pharmacia) and equilibrated with phosphate-physiological saline buffer. Ta.
The results are shown in Figure 1. As is clear from FIG. 1, when AFP was added to the reaction solution, the amount of antibody that bound to the PLC membrane decreased depending on its concentration. In addition, soluble radioactivity, which appears to be a combination of AFP and antibody, increased depending on the AFP concentration. B Detection of monoclonal antibody-bound substances by two-dimensional electrophoresis: Label the liver cancer cell line PLC with 14 C-leucine, collect the polymeric substances in the culture supernatant,
When reacting with this antibody and examining the presence or absence of protein A-binding radioactivity, a clear antibody-bound substance was observed. In addition, a membrane-soluble fraction derived from 10 ml of culture solution and 5 x 10 6 cells was reacted with 2 μg of this antibody and purified with "Protein A" to obtain an antibody-bound substance. When these bound substances are detected by two-dimensional electrophoresis according to the method of Oferle et al., in addition to the H chain and L chain derived from this antibody, molecular weight
An AFP of 64K and an isoelectric point of 4.7 was observed. All these spots were the same in the PLC culture supernatant and the solubilized membrane. C Liver cancer cell line PLC membrane binding after enzyme and drug treatment: PLC membrane fraction was treated with trypsin, protease,
When digested with a proteolytic enzyme such as thymotrypsin, the binding property of this antibody decreased or showed a tendency to decrease. Furthermore, treatment with Triton100 also showed a tendency to decrease, but treatment with ligase conversely increased the binding.

【図面の簡単な説明】[Brief explanation of the drawing]

図1は、本発明におけるモノクローナル抗体を
用いて、AFPがPLCセルライン膜と抗体との結
合を阻害するか否かをテストした結果を示す。
FIG. 1 shows the results of a test using the monoclonal antibody of the present invention to determine whether AFP inhibits the binding of the antibody to the PLC cell line membrane.

Claims (1)

【特許請求の範囲】[Claims] 1 α−フエトプロテイン(AFP)で免疫した
マウス脾臓細胞と、マウスミエローマ細胞との細
胞融合により得られるハイブリドーマで、AFP
を産生するセルラインの表面上に存在するエピト
ープを認識するモノクローナル抗体を産生するこ
とを特徴とするハイブリドーマ。
1 A hybridoma obtained by cell fusion of mouse spleen cells immunized with α-fetoprotein (AFP) and mouse myeloma cells.
A hybridoma characterized by producing a monoclonal antibody that recognizes an epitope present on the surface of a cell line that produces a hybridoma.
JP58176772A 1983-09-24 1983-09-24 Hybridoma Granted JPS6066979A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP58176772A JPS6066979A (en) 1983-09-24 1983-09-24 Hybridoma

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP58176772A JPS6066979A (en) 1983-09-24 1983-09-24 Hybridoma

Publications (2)

Publication Number Publication Date
JPS6066979A JPS6066979A (en) 1985-04-17
JPH0469995B2 true JPH0469995B2 (en) 1992-11-09

Family

ID=16019555

Family Applications (1)

Application Number Title Priority Date Filing Date
JP58176772A Granted JPS6066979A (en) 1983-09-24 1983-09-24 Hybridoma

Country Status (1)

Country Link
JP (1) JPS6066979A (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2635267B1 (en) * 1988-08-09 1992-05-22 Tokuyama Soda Kk MONOCLONAL ANTIBODIES AND PROCESS FOR PRODUCING THE SAME

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