JP6188390B2 - Method for measuring MMP-3 - Google Patents
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Description
本発明は、ヒトMMP−3と特異的に反応し、かつEDTA共存下でEDTA非共存下と同等のヒトMMP−3に対する反応性を有するモノクロ−ナル抗体を使用するMMP−3の測定方法及び該測定方法に用いられる測定試薬・測定試薬キットに関する。また、前記モノクローナル抗体、前記モノクローナル抗体を産生するハイブリドーマ、前記モノクローナル抗体の製造方法に関する。 The present invention relates to a method for measuring MMP-3 using a monoclonal antibody that reacts specifically with human MMP-3 and has the same reactivity with human MMP-3 in the presence of EDTA and in the absence of EDTA, and The present invention relates to a measurement reagent / measurement reagent kit used in the measurement method. The present invention also relates to the monoclonal antibody, a hybridoma that produces the monoclonal antibody, and a method for producing the monoclonal antibody.
MMP−3(マトリクスメタロプロテイナ−ゼ3)は滑膜細胞や軟骨細胞で産生され、その特異的基質が軟骨を構成するプロテオグリカンであること、他のMMPsを活性化する作用も有することから、関節リウマチ(RA)罹患時の関節組織破壊において中心的な役割を担っている酵素として知られている。
一般に慢性関節リウマチの病態の進展に伴い、滑膜は炎症反応を起こして増殖する。MMP−3は滑膜の増殖に伴い滑膜表層細胞で産生されて関節液中に貯留し、血管やリンパ管を経由して血中に移行すると考えられている。このことから、血中MMP−3濃度は関節リウマチの診断補助や治療効果、疾患活動性、関節破壊の指標として、その臨床的有用性が広く知られている。ヒトMMP−3測定試薬、測定試薬キットとして、以下の非特許文献に示すような試薬が知られている。
MMP-3 (matrix metalloproteinase 3) is produced in synovial cells and chondrocytes, and its specific substrate is proteoglycan constituting cartilage, and also has an action of activating other MMPs. It is known as an enzyme that plays a central role in the destruction of joint tissues during rheumatoid arthritis (RA).
In general, as the pathological condition of rheumatoid arthritis progresses, the synovium proliferates by causing an inflammatory reaction. It is considered that MMP-3 is produced in the synovial surface cells as the synovial membrane grows, accumulates in the synovial fluid, and moves into the blood via blood vessels and lymphatic vessels. From this, blood MMP-3 concentration is widely known for its clinical usefulness as an index of diagnosis assistance and therapeutic effect, disease activity, and joint destruction of rheumatoid arthritis. As human MMP-3 measuring reagents and measuring reagent kits, reagents as shown in the following non-patent documents are known.
非特許文献1−4に示す試薬及びキットでは、EDTA血漿では検出されるべきMMP−3濃度に対して、検出されるMMP−3濃度が低値化するため、EDTA血漿の使用は推奨しないと記載されている。さらに、非特許文献5では、非特許文献4記載のキットを用いて、各種採血管由来の試料測定値についての検討を実施し、EDTAを用いた場合にMMP−3測定値が低値化したという実験報告がなされている。
また、非特許文献6に示すキットでは、正常検体を測定したデ−タが記載されているが、8項に記載されているように、EDTA血漿測定値はその他検体種と比較すると、測定値が低値化する傾向にあることが明示されている。
このように、EDTA血漿中のMMP−3濃度測定値の正確性に言及している例はこれまではなかった。しかしながら、慢性関節リウマチの診断補助や治療効果判定、疾患活動性、関節破壊の指標としてMMP−3を用いるには、正確な測定値が得られることが極めて重要であり、そして検体の種類を問わずに正確な測定値が得られる臨床検査薬は極めて有用である。
In the reagents and kits shown in Non-Patent Documents 1-4, since the detected MMP-3 concentration is lower than the MMP-3 concentration to be detected in EDTA plasma, the use of EDTA plasma is not recommended. Have been described. Furthermore, in Non-Patent Document 5, examination of sample measurement values derived from various blood collection tubes was carried out using the kit described in Non-Patent Document 4, and MMP-3 measurement values were lowered when EDTA was used. An experiment report has been made.
In addition, in the kit shown in Non-Patent Document 6, data obtained by measuring a normal sample are described. However, as described in Item 8, the EDTA plasma measurement value is a measured value compared with other sample types. It is clearly shown that the price tends to decrease.
Thus, there has never been an example referring to the accuracy of MMP-3 concentration measurements in EDTA plasma. However, in order to use MMP-3 as an index for diagnosis of rheumatoid arthritis, evaluation of therapeutic effect, disease activity, and joint destruction, it is extremely important to obtain an accurate measurement value, regardless of the type of specimen. Therefore, a clinical test drug that can obtain an accurate measurement value is extremely useful.
本発明は、ヒトMMP−3と特異的に反応し、かつEDTA共存下でEDTA非共存下と同等のヒトMMP−3に対する反応性を有することを特徴とする抗MMP−3モノクロ−ナル抗体、該モノクロ−ナル抗体に由来する機能性断片、さらに該モノクロ−ナル抗体を産生するハイブリド−マを提供することを課題とする。
また、本発明は、EDTAを含む試料中のMMP−3濃度を正確に測定するための免疫測定方法、免疫測定試薬及び免疫測定キットを提供することを課題とする。
The present invention provides an anti-MMP-3 monoclonal antibody characterized by reacting specifically with human MMP-3 and having the same reactivity with human MMP-3 in the presence of EDTA and in the absence of EDTA, It is an object of the present invention to provide a functional fragment derived from the monoclonal antibody and a hybridoma that produces the monoclonal antibody.
Another object of the present invention is to provide an immunoassay method, an immunoassay reagent and an immunoassay kit for accurately measuring the MMP-3 concentration in a sample containing EDTA.
本発明者らは上記課題を解決するために鋭意研究を行ったところ、ヒトMMP−3に対するモノクロ−ナル抗体の選別において、EDTA共存下とEDTA非共存下での抗体の反応性を指標とすることで、EDTA共存下とEDTA非共存下の反応性が同等のモノクロ−ナル抗体を特別に選別できることを見出し、本発明を完成するに至った。このようにして得られたモノクロ−ナル抗体は、EDTA共存下での反応性に着目したことがなかった従来の方法では特別に選別されることはなかった。
また、本発明者らは、上記で選別されたEDTA共存下でEDTA非共存下と同等の反応性を有するモノクロ−ナル抗体同士を組み合わせることによって、EDTAを含む試料中でも測定値が低値化することなく、正確にMMP−3濃度を測定できることを見出した。したがって、本発明の別の目的は、抗原抗体反応を利用した免疫測定方法において、EDTA共存下でも強い反応性を有する抗体同士を組み合わせることにより、EDTAを含む試料中でもMMP−3濃度を正確に得られることを特徴とする免疫測定方法、測定試薬及び測定キットに関する。
具体的には、本発明は以下の構成を有する。
<1>試料中のMMP−3を測定する方法であって、
EDTA共存下においてEDTA非共存下と同等の反応性を有する抗MMP−3モノクロ−ナル抗体と試料中のMMP−3を接触させる工程を含む、測定方法。
<2>EDTA共存下においてEDTA非共存下と同等の反応性を有する抗MMP−3モノクロ−ナル抗体が、2種以上の抗体である、前記<1>に記載の測定方法。
<3>2種以上の抗体が、MMP−3に対する認識部位が互いに異なる抗体である、前記<2>に記載の測定方法。
<4>2種以上の抗体が、以下の(1)及び(2)を満たす抗体である、前記<2>又は<3>に記載の測定方法。
(1)EDTA共存下におけるヒトMMP−3との反応平衡定数(KD値)が、EDTA非共存下におけるKD値に対して200%未満
(2)EDTA共存下におけるヒトMMP−3との結合量を示すRmaxが、EDTA非共存下でのRmaxに対して65%以上
<5>2種以上の抗体が、寄託番号FERM P−22219(82208)、FERM P−22131(82211)、FERM P−22132(82213)、FERM BP−11486(82216)、FERM P−22133(82245)からなる群より選ばれるハイブリド−マにより産生されるものである、前記<2>〜<4>のいずれか一項に記載の測定方法。
<6>試料がEDTAを含むものである、前記<1>〜<5>のいずれか一項に記載の測定方法。
<7>前記<1>〜<6>のいずれか一項に記載の測定方法に用いられる、試料中のMMP−3を測定する測定試薬および測定試薬キット。
<8>EDTA共存下においてEDTA非共存下と同等の反応性を有することを特徴とする抗ヒトMMP−3モノクロ−ナル抗体。
<9>EDTA共存下においてEDTA非共存下と同等のヒトMMP−3との反応性が以下の(1)及び(2)を満たすことを特徴とする前記<8>記載の抗MMP−3モノクロ−ナル抗体。
(1)EDTA共存下におけるヒトMMP−3との反応平衡定数(KD値)が、EDTA非共存下におけるKD値に対して200%未満
(2)EDTA共存下におけるヒトMMP−3との結合量を示すRmaxが、EDTA非共存下でのRmaxに対して65%以上
<10>以下の工程を含む方法によって選択された前記<8>又は<9>に記載の抗MMP−3モノクロ−ナル抗体。
工程1:MMP−3を免疫源として、非ヒト動物に免疫する工程
工程2:MMP−3に対する反応性が高い抗体を産生する免疫担当細胞を選択する工程
工程3:工程2で選択した免疫担当細胞を使用してハイブリドーマを取得する工程
工程4:工程3で取得したハイブリドーマを使用して抗MMP−3モノクロ−ナル抗体を取得する工程
工程5:前記工程2〜4のいずれか一工程において、EDTA共存下とEDTA非共存下それぞれの条件におけるヒトMMP−3に対する反応性を評価し、EDTA共存下とEDTA非共存下で反応性が同等のクローンを選択する工程
<11>寄託番号FERM P−22219(82208)、FERM P−22131(82211)、FERM P−22132(82213)、FERM BP−11486(82216)、FERM P−22133(82245)であるハイブリド−マにより産生される、モノクロ−ナル抗体。
<12>前記<8>〜<11>のいずれかに記載の抗MMP−3モノクロ−ナル抗体に由来するFab部位を含む、モノクロ−ナル抗体断片。
<13>前記<8>又は<9>に記載のモノクロ−ナル抗体を産生することを特徴とするハイブリド−マ。
<14>FERM P−22219(82208)、FERM P−22131(82211)、FERM P−22132(82213)、FERM BP−11486(82216)、FERM P−22133(82245)である前記<8>又は<9>に記載のハイブリド−マ。
<15>以下の工程を含む前記<8>又は<9>に記載の抗MMP−3モノクロ−ナル抗体を製造する方法。
工程1)ヒトMMP−3を免疫源として、抗MMP−3抗体産生ハイブリド−マを取得する工程
工程2)工程1で取得したハイブリド−マが産生する抗体を、ヒトMMP−3と接触させて、反応性が強い抗体を産生するハイブリド−マを選択し、このハイブリド−マが産生する抗体を取得する工程
工程3)工程2で取得した抗体について、EDTA共存下とEDTA非共存下それぞれのヒトMMP−3に対する反応性を評価し、EDTA共存下とEDTA非共存下で反応性が同等のクローンを選択する工程
The inventors of the present invention have made extensive studies to solve the above-mentioned problems, and in the selection of a monoclonal antibody against human MMP-3, the reactivity of the antibody in the presence of EDTA and in the absence of EDTA is used as an index. Thus, the inventors have found that a monoclonal antibody having the same reactivity in the presence of EDTA and in the absence of EDTA can be specially selected, and the present invention has been completed. Monoclonal antibodies obtained in this way were not specially selected by conventional methods that had never focused on reactivity in the presence of EDTA.
In addition, the present inventors combine the monoclonal antibodies having the same reactivity in the presence of the EDTA selected above and in the absence of EDTA, thereby lowering the measured value even in the sample containing EDTA. The present inventors have found that the MMP-3 concentration can be measured accurately. Therefore, another object of the present invention is to accurately obtain MMP-3 concentration even in a sample containing EDTA by combining antibodies having strong reactivity even in the presence of EDTA in an immunoassay method utilizing antigen-antibody reaction. The present invention relates to an immunoassay method, a measurement reagent, and a measurement kit.
Specifically, the present invention has the following configuration.
<1> A method for measuring MMP-3 in a sample,
A measurement method comprising a step of contacting an anti-MMP-3 monoclonal antibody having reactivity equivalent to that in the absence of EDTA in the presence of EDTA with MMP-3 in the sample.
<2> The measurement method according to <1>, wherein the anti-MMP-3 monoclonal antibody having a reactivity equivalent to that in the absence of EDTA in the presence of EDTA is two or more antibodies.
<3> The measurement method according to <2>, wherein the two or more types of antibodies are antibodies having different recognition sites for MMP-3.
<4> The measurement method according to <2> or <3>, wherein the two or more kinds of antibodies satisfy the following (1) and (2).
(1) The reaction equilibrium constant (KD value) with human MMP-3 in the presence of EDTA is less than 200% of the KD value in the absence of EDTA. (2) Amount of binding with human MMP-3 in the presence of EDTA Rmax indicating 65% or more relative to Rmax in the absence of EDTA
<5> Two or more kinds of antibodies may be deposited with the deposit numbers FERM P-22219 (82208), FERM P-22131 (82211), FERM P-22132 (82213), FERM BP-11486 (82216), FERM P-22133 (82245). The method according to any one of <2> to <4>, wherein the method is produced by a hybridoma selected from the group consisting of:
<6> The measurement method according to any one of <1> to <5>, wherein the sample contains EDTA.
<7> A measurement reagent and a measurement reagent kit for measuring MMP-3 in a sample, which are used in the measurement method according to any one of <1> to <6>.
<8> An anti-human MMP-3 monoclonal antibody having a reactivity equivalent to that in the absence of EDTA in the presence of EDTA.
<9> Anti-MMP-3 monochrome according to the above <8>, wherein the reactivity with human MMP-3 in the presence of EDTA is equivalent to that in the absence of EDTA satisfies the following (1) and (2): -Null antibody.
(1) The reaction equilibrium constant (KD value) with human MMP-3 in the presence of EDTA is less than 200% of the KD value in the absence of EDTA. (2) Amount of binding with human MMP-3 in the presence of EDTA Rmax indicating 65% or more relative to Rmax in the absence of EDTA
<10> The anti-MMP-3 monoclonal antibody according to <8> or <9>, which is selected by a method including the following steps.
Step 1: Immunize a non-human animal using MMP-3 as an immunogen Step 2: Select immunocompetent cells that produce antibodies with high reactivity to MMP-3 Step 3: Immunocompetent selected in Step 2 Step 4 for obtaining hybridoma using cells Step 4: Step for obtaining anti-MMP-3 monoclonal antibody using the hybridoma obtained in Step 3 Step 5: In any one of Steps 2 to 4, A process for evaluating reactivity to human MMP-3 in the presence of EDTA and in the absence of EDTA, and selecting clones having the same reactivity in the presence of EDTA and in the absence of EDTA
<11> By hybridoma having deposit numbers FERM P-22219 (82208), FERM P-22131 (82211), FERM P-22132 (82213), FERM BP-11486 (82216), FERM P-22133 (82245) Monoclonal antibody produced.
<12> A monoclonal antibody fragment comprising a Fab site derived from the anti-MMP-3 monoclonal antibody according to any one of <8> to <11>.
<13> A hybridoma characterized by producing the monoclonal antibody according to <8> or <9>.
<14> The above <8> or <FERM P-22219 (82208), FERM P-22131 (82211), FERM P-22132 (82213), FERM BP-11486 (82216), FERM P-22133 (82245) The hybridoma according to 9>.
<15> A method for producing the anti-MMP-3 monoclonal antibody according to <8> or <9>, comprising the following steps.
Step 1) Obtaining an anti-MMP-3 antibody-producing hybridoma using human MMP-3 as an immunogen Step 2) Contacting the antibody produced by the hybridoma obtained in Step 1 with human MMP-3 , Selecting a hybridoma that produces a highly reactive antibody, and obtaining an antibody produced by this hybridoma. Step 3) For the antibody obtained in step 2, each human in the presence of EDTA and in the absence of EDTA. A step of evaluating the reactivity to MMP-3 and selecting clones having the same reactivity in the presence of EDTA and in the absence of EDTA
本発明のEDTA共存下でも非共存下と同等の反応性を有する抗MMP−3モノクロ−ナル抗体を用いることで、EDTAを含む試料中のMMP−3濃度を正確に測定できる免疫測定試薬及び測定キットが提供可能になった。また、本発明のモノクロ−ナル抗体の選択方法は、EDTA非共存下とEDTA共存下での抗体の反応性を指標に選択されるため、高精度に目的とするモノクロ−ナル抗体を得ることができ、効率的である。本発明の免疫測定試薬及びキットを用いることで、EDTA血漿中のMMP−3濃度も正確に測定することができ、検体種を選ばないことから、慢性関節リウマチの臨床検査薬として用いるのに好適である。 An immunoassay reagent and measurement capable of accurately measuring the concentration of MMP-3 in a sample containing EDTA by using an anti-MMP-3 monoclonal antibody having a reactivity equivalent to that in the absence of coexistence in the presence of EDTA of the present invention A kit is now available. In addition, since the method for selecting a monoclonal antibody of the present invention is selected based on the reactivity of the antibody in the absence of EDTA and in the presence of EDTA, the target monoclonal antibody can be obtained with high accuracy. Can and is efficient. By using the immunoassay reagent and kit of the present invention, the concentration of MMP-3 in EDTA plasma can also be accurately measured, and it is suitable for use as a clinical diagnostic agent for rheumatoid arthritis because it does not select the sample type. It is.
(抗ヒトMMP−3モノクロ−ナル抗体)
本発明の抗ヒトMMP−3モノクロ−ナル抗体は、ヒトMMP−3と特異的に反応する抗体である。抗ヒトMMP−3モノクロ−ナル抗体を得るにあたって、ヒトMMP−3と抗原抗体反応を起こすことを指標とした選別はなされてきたが、EDTA共存下での反応性に注目した選別は例がなく、EDTA共存下でもEDTA非共存下と同等の反応性を有する本抗体はまったく新規である。
ここで、EDTA共存下でもEDTA非共存下と同等の反応性を有するとは、EDTA存在下でヒトMMP−3と反応させた場合と、EDTAを存在させずにヒトMMP−3と反応させた場合とで、反応性が同等であることをいい、反応性の指標としては、抗体のアフィニティ−の強さを示す反応平衡定数(KD値)、ヒトMMP−3との結合量を示すRmaxが挙げられる。また、固相抗体に対するヒトMMP−3との結合量、あるいは、抗体を結合させた担体の凝集度合いなどにより示すこともできる。
また、本発明の抗MMP−3モノクロ−ナル抗体で反応性が同等である抗体とは、KD値とRmaxを指標とした場合、以下の特徴をもつ抗体をいう。
1)EDTA共存下での、ヒトMMP−3との反応平衡定数KD値が、EDTA非共存下での反応平衡定数KD値に対して200%未満
また、Rmaxを指標とした場合、以下の特徴をもつ抗体をいう。
2)EDTA共存下での、ヒトMMP−3との結合量を示すRmaxが、EDTA非共存下でのRmaxに対して70%以上
また、固相抗体に対するヒトMMP−3との結合量を吸光度として測定した場合、以下の特長をもつ抗体をいう
3)EDTA共存下における吸光度がEDTA非共存下での吸光度に対して80〜120%。
抗体を結合させた担体同士の凝集度合いを指標とした場合、以下の特徴をもつ抗体をいう
4)抗体を結合させた担体同士が凝集反応を起こすことによって凝集する反応性が、EDTA存在下における凝集シグナルがEDTA非存在下における凝集シグナルに対して80-120%。
なお、本発明の抗ヒトMMP−3モノクロ−ナル抗体を作製する技術に関して特に制限はないが、マウスハイブリド−マを作製する方法が一般的である。また、本発明の抗ヒトMMP−3抗体調製後の遺伝子操作技術による構造改変や修飾に関して、該モノクロ−ナル抗体のヒトMMP−3抗体のヒトMMP−3との反応特性を大きく損なわない限り特に制限はない。
(Anti-human MMP-3 monoclonal antibody)
The anti-human MMP-3 monoclonal antibody of the present invention is an antibody that specifically reacts with human MMP-3. In obtaining anti-human MMP-3 monoclonal antibody, selection has been made by using an antigen-antibody reaction with human MMP-3 as an index, but there is no example of selection focusing on reactivity in the presence of EDTA. The present antibody having reactivity equivalent to that in the absence of EDTA even in the presence of EDTA is completely novel.
Here, having the same reactivity as in the absence of EDTA even in the presence of EDTA means that it has been reacted with human MMP-3 in the presence of EDTA, and that it has been reacted with human MMP-3 in the absence of EDTA. In some cases, the reactivity is equivalent, and as an index of reactivity, reaction equilibrium constant (KD value) indicating the strength of antibody affinity, and Rmax indicating the binding amount to human MMP-3 are used. Can be mentioned. It can also be indicated by the amount of human MMP-3 bound to the solid phase antibody or the degree of aggregation of the carrier to which the antibody is bound.
In addition, the antibody having the same reactivity as the anti-MMP-3 monoclonal antibody of the present invention refers to an antibody having the following characteristics when KD value and Rmax are used as indices.
1) The reaction equilibrium constant KD value with human MMP-3 in the presence of EDTA is less than 200% with respect to the reaction equilibrium constant KD value in the absence of EDTA. An antibody having
2) Rmax indicating the amount of binding to human MMP-3 in the presence of EDTA is 70% or more of Rmax in the absence of EDTA, and the amount of binding to human MMP-3 to the solid phase antibody is expressed as absorbance. 3) The absorbance in the presence of EDTA is 80 to 120% of the absorbance in the absence of EDTA.
When the degree of aggregation between the carriers bound with the antibody is used as an index, it means an antibody having the following characteristics: 4) Reactivity of aggregation caused by the aggregation reaction between carriers bound with the antibody in the presence of EDTA Aggregation signal is 80-120% relative to the aggregation signal in the absence of EDTA.
The technique for producing the anti-human MMP-3 monoclonal antibody of the present invention is not particularly limited, but a method for producing a mouse hybridoma is common. In addition, regarding structural modification and modification by genetic manipulation techniques after preparation of the anti-human MMP-3 antibody of the present invention, in particular, unless the reaction characteristics of the human MMP-3 antibody with human MMP-3 are greatly impaired. There is no limit.
このような本発明の抗MMP−3モノクロ−ナル抗体の具体例としてはFERM P−22219(82208)、FERM P−22131(82211)、FERM P−22132(82213)、FERM BP−11486(82216)、FERM P−22133(82245)であるハイブリド−マにより産生される、モノクロ−ナル抗体が挙げられる。 Specific examples of the anti-MMP-3 monoclonal antibody of the present invention include FERM P-22219 (82208), FERM P-22131 (82211), FERM P-22132 (82213), and FERM BP-11486 (82216). Monoclonal antibodies produced by the hybridoma, FERM P-22133 (82245).
(モノクロ−ナル抗体断片)
本発明には酵素的消化によって得られる該モノクロ−ナル抗体のFab部分を含む機能性断片や遺伝子組み換えによって作製される該モノクロ−ナル抗体のFab部分を含む機能性断片にかかわらず、該モノクロ−ナル抗体に由来するFab部分を含む機能性断片を有するものであれば利用できる。従って、本発明の機能性断片の「機能性」の意味は、具体的にはヒトMMP−3との結合能を有することをいう。
(Monoclonal antibody fragment)
Regardless of the functional fragment containing the Fab portion of the monoclonal antibody obtained by enzymatic digestion or the functional fragment containing the Fab portion of the monoclonal antibody produced by gene recombination, the present invention includes Any functional fragment containing a Fab portion derived from a null antibody can be used. Therefore, the meaning of “functionality” of the functional fragment of the present invention specifically means having the ability to bind to human MMP-3.
(測定対象試料)
本発明で述べるEDTA(エチレンジアミン四酢酸)としては、一般に抗凝固剤として採血管に添加、塗布等され広く用いられている、ナトリウム塩やリチウム塩を挙げることができるが、これに限定されるものではない。また、本発明の免疫測定方法で測定可能な試料としては、従来法で測定できなかったEDTAを含有する試料、より具体的には抗凝固剤にEDTAを用いて採血されたEDTA血漿だけでなく、血液、血清、血漿、尿、関節液などの生体試料も測定可能である。
(Sample to be measured)
Examples of EDTA (ethylenediaminetetraacetic acid) described in the present invention include sodium salts and lithium salts that are generally used as anticoagulants added to, or applied to, blood collection tubes, but are not limited thereto. is not. Samples that can be measured by the immunoassay method of the present invention include not only samples containing EDTA that could not be measured by conventional methods, more specifically, EDTA plasma collected using EDTA as an anticoagulant. It is also possible to measure biological samples such as blood, serum, plasma, urine, and joint fluid.
(ハイブリド−マ)
本発明の抗ヒトMMP−3抗体を産生するために用いるハイブリド−マはヒトMMP−3と特異的に反応し、かつEDTA共存下で高い反応性を有する抗MMP−3抗体を産生できるハイブリド−マであれはいずれでもよく、本発明の抗MMP−3モノクロ−ナル抗体は以下の工程1)−4)を経て製造される。
工程1)精製ヒトMMP−3を免疫源として、抗ヒトMMP−3抗体産生ハイブリド−マを取得する工程
工程2)工程1)で取得したハイブリド−マが産生する抗体の中から、MMP−3に対する反応性の高い抗体を選択する工程
工程3)工程2で取得した抗体について、EDTA共存下とEDTA非共存下それぞれのヒトMMP−3に対する反応性を評価し、EDTA共存下とEDTA非共存下で反応性が同等のクローンを選択する工程。
工程4)工程3)で選択されたハイブリド−マを取得する工程
このような選択工程を経て得られた抗体は、MMP−3に特異的に反応し、かつEDTA共存下でもEDTA非共存下と同等の反応性を有する。
前記工程で選択された抗体として、例えばFERM P−22219(82208)、FERM P−22131(82211)、FERM P−22132(82213)、FERM BP−11486(82216)、FERM P−22133(82245)が産生する抗体が挙げられる。
(Hybridoma)
The hybridoma used for producing the anti-human MMP-3 antibody of the present invention specifically reacts with human MMP-3 and can produce an anti-MMP-3 antibody having high reactivity in the presence of EDTA. The anti-MMP-3 monoclonal antibody of the present invention is produced through the following steps 1) -4).
Step 1) Obtaining an anti-human MMP-3 antibody-producing hybridoma using purified human MMP-3 as an immunogen Step 2) From the antibodies produced by the hybridoma obtained in Step 1), MMP-3 Step 3) Select antibodies with high reactivity against human MMP-3 in the presence of EDTA and in the absence of EDTA for the antibodies obtained in Step 2, and in the presence of EDTA and in the absence of EDTA The process of selecting clones with the same reactivity.
Step 4) Step of obtaining the hybridoma selected in Step 3) The antibody obtained through such a selection step reacts specifically with MMP-3, and in the presence of EDTA and in the absence of EDTA. Has equivalent reactivity.
Examples of the antibody selected in the above step include FERM P-22219 (82208), FERM P-22131 (82211), FERM P-22132 (82213), FERM BP-11486 (82216), and FERM P-22133 (82245). An antibody to be produced is mentioned.
(用途)
本発明のMMP−3モノクロ−ナル抗体を用いれば、試料中のEDTAの有無にかかわらず、MMP−3濃度を正確に測定することが可能になる。
MMPファミリーは活性中心に亜鉛を配位し、構造の安定化にはカルシウムを必要とすることが知られている。MMP−3にも4か所のカルシウム結合部位が存在し、カルシウムやEDTAが酵素活性に影響をおよぼすことが報告されている(非特許文献7)。これらの事実から、EDTAの影響を受けない抗MMP-3抗体を作成することは不可能であると考えられており、実際にEDTAの影響を受けない免疫測定系は存在しなかった。
一価の抗原であるMMP−3を、抗原抗体反応を用いたサンドイッチ法で定量するには少なくとも2種類の抗体を用いる必要があり、いずれか一方がEDTAの影響を受けやすかった場合、測定系としてもEDTAの影響を受けてしまう。EDTA共存下と、EDTA非共存下のヒトMMP−3に対する抗体の反応性を評価する本発明によって、EDTA共存下でも非共存化でも同等の反応性を有する抗体を効率よく選別できるようになり、EDTA共存下で非共存化と同等の反応性を有する少なくとも2種類のクロ−ンのみを用いた測定系の構築が可能となった。このようにして、EDTAの影響を受けない免疫測定系を構築するに至った。
また本抗体を用いた免疫測定試薬では、EDTA含有試料中のMMP−3濃度、たとえばEDTA血漿も正確に測定することが可能となり、検体種を選ばないことから、慢性関節リウマチの臨床検査薬として用いるのに好適である。
(Use)
If the MMP-3 monoclonal antibody of the present invention is used, the MMP-3 concentration can be accurately measured regardless of the presence or absence of EDTA in the sample.
The MMP family is known to coordinate zinc at the active center and require calcium for structural stabilization. MMP-3 also has four calcium-binding sites, and it has been reported that calcium and EDTA affect enzyme activity (Non-patent Document 7). From these facts, it is considered impossible to produce an anti-MMP-3 antibody that is not affected by EDTA, and there is no immunoassay system that is not actually affected by EDTA.
In order to quantify the monovalent antigen MMP-3 by the sandwich method using an antigen-antibody reaction, it is necessary to use at least two kinds of antibodies, and when either one is susceptible to EDTA, the measurement system However, it will be affected by EDTA. According to the present invention for evaluating the reactivity of antibodies against human MMP-3 in the presence of EDTA and in the absence of EDTA, it becomes possible to efficiently select antibodies having equivalent reactivity in the presence or absence of EDTA, It has become possible to construct a measurement system using only at least two types of clones having reactivity equivalent to non-coexistence in the presence of EDTA. In this way, an immunoassay system that is not affected by EDTA has been constructed.
In addition, the immunoassay reagent using this antibody can accurately measure the concentration of MMP-3 in EDTA-containing samples, for example, EDTA plasma, and can be used as a clinical test for rheumatoid arthritis because it does not select a specimen type. Suitable for use.
以下、抗MMP−3モノクロ−ナル抗体の作製方法、該モノクロ−ナル抗体のなかからEDTAの共存下でも非共存下でも同等の反応性を有する抗体の探索方法、及び、該抗体同士を組み合わせての免疫学的測定方法の例を挙げて本発明の一部を詳細に説明するが、本発明はこれに限定されるものではない。 Hereinafter, a method for producing an anti-MMP-3 monoclonal antibody, a method for searching for antibodies having the same reactivity in the presence or absence of EDTA from the monoclonal antibodies, and a combination of the antibodies. Some examples of the immunological measurement method will be described in detail, but the present invention is not limited thereto.
〔比較例1〕
市販のヒトMMP−3測定キットを用いて、同一の健常人ドナ−より採取した血清、EDTA血漿、ヘパリン血漿についてMMP−3濃度を測定した(表1)。
使用したキットを以下に示す。
〈1〉Enzyme linked Immunosorbent Assay Kit For Matrix Metelloproteinase3
(USCN Life Science inc)
〈2〉Blue Gene ELISA kits Human Stromelysin ST−1 ELISA kit
(Life Sciences Advanced Technologies Inc)
〈3〉パナクリアMMP−3プレ−ト(第一ファインケミカル株式会社)
[Comparative Example 1]
Using a commercially available human MMP-3 measurement kit, MMP-3 concentrations were measured for serum, EDTA plasma, and heparin plasma collected from the same healthy donor (Table 1).
The kit used is shown below.
<1> Enzyme linked Immunosorbent Assay Kit For Matrix Metalloproteinase 3
(USCN Life Science Inc)
<2> Blue Gene ELISA kits Human Stromalysin ST-1 ELISA kit
(Life Sciences Advanced Technologies Inc)
<3> Panaclear MMP-3 plate (Daiichi Fine Chemical Co., Ltd.)
一方キット〈2〉の測定原理は競合法であり、抗体の反応性が低下すると、測定値が高値化すると考えられる。
以上のことから、いずれのキットを用いても、EDTA血漿の値を正確に測定することはできないものと考えられた。
On the other hand, the measurement principle of kit <2> is a competitive method, and it is considered that the measured value increases as the reactivity of the antibody decreases.
From the above, it was considered that the value of EDTA plasma could not be accurately measured with any kit.
〔比較例2〕既存試薬に使用している抗体での影響評価)
比較例1で測定値が低値化した試薬のうち、キット〈3〉パナクリアMMP−3プレ−ト(第一ファインケミカル)の製品キットを用いて、試薬中に用いられている固相抗体と標識抗体それぞれのEDTA共存下での反応性を以下の方法で検証した。
1)固相抗体への影響評価
EDTA0mM :MMP−3濃度既知試料を、製品キット中の緩衝液で(50、100、200ng/mL)に希釈し、そのほかの工程は添付文書記載の方法に従った。
EDTA3mM :MMP−3濃度既知試料を、終濃度3mMとなるようEDTAを添加した製品キット中の緩衝液を用いて(50、100、200ng/mL)に希釈し、そのほかの工程は添付文書記載の方法に従った。
EDTA30mM:MMP−3濃度既知試料を、終濃度30mMとなるようEDTAを添加した製品キット中の緩衝液を用いて(50、100、200ng/mL)に希釈し、そのほかの工程は添付文書記載の方法に従った。
上記サンプルを測定して得られた測定波長450nmの吸光度(OD450)について、下式に基づいてEDTA無添加に対するEDTA共存下での反応性(%)を算出し、抗体反応性を評価した(表2)。
EDTA共存下での抗体の反応性(%)
=EDTA共存下でのOD450 ÷ EDTA非共存下でのOD450 × 100
EDTA共存下での反応性が非共存化での反応性に対して80%以上となった場合、同等と判断し、それ以下の場合はEDTAの影響を受けて反応性が低下すると判断した。
[Comparative Example 2] Impact assessment with antibodies used in existing reagents)
Among the reagents whose measured values were lowered in Comparative Example 1, using a kit <3> Panaclear MMP-3 plate (first fine chemical) product kit, the solid-phase antibody and the label used in the reagent The reactivity of each antibody in the presence of EDTA was verified by the following method.
1) Evaluation of effects on solid phase antibody EDTA 0 mM: Dilute a sample with known MMP-3 concentration (50, 100, 200 ng / mL) with the buffer in the product kit, and follow the method described in the package insert for other steps. It was.
EDTA 3 mM: Dilute a sample with known MMP-3 concentration (50, 100, 200 ng / mL) using the buffer in the product kit to which EDTA has been added to give a final concentration of 3 mM. Followed the method.
EDTA 30 mM: Dilute a sample with known MMP-3 concentration (50, 100, 200 ng / mL) in the product kit with EDTA added to a final concentration of 30 mM. Followed the method.
About the absorbance (OD450) at a measurement wavelength of 450 nm obtained by measuring the above sample, the reactivity (%) in the presence of EDTA relative to the absence of EDTA was calculated based on the following formula, and the antibody reactivity was evaluated (Table) 2).
Antibody reactivity in the presence of EDTA (%)
= OD450 in the presence of EDTA ÷ OD450 in the absence of EDTA × 100
When the reactivity in the presence of EDTA was 80% or more relative to the reactivity in the absence of coexistence, it was judged to be equivalent, and in the case of less than that, it was judged that the reactivity decreased due to the influence of EDTA.
測定試料にはMMP−3濃度既知試料(50、100、200ng/mL)を用い、製品キットの二次抗体を以下の手順で調製した以外は製品キットの添付資料記載の方法に従った。
EDTA0mM :酵素標識抗体液を、製品キット中の緩衝液で希釈し、そのほかの工程は添付文書記載の方法に従った。
EDTA3mM :酵素標識抗体液を、終濃度3mMとなるようEDTAを添加した製品キット中の緩衝液を用いて希釈し、そのほかの工程は添付文書記載の方法に従った。
EDTA30mM:酵素標識抗体液を、終濃度30mMとなるようEDTAを添加した製品キット中の緩衝液を用いて希釈し、そのほかの工程は添付文書記載の方法に従った。
上記二次抗体溶液を用いて測定して得られた測定波長450nmの吸光度(OD450)について、下式に基づいてEDTA無添加に対するEDTA共存下での反応性(%)を算出し、抗体反応性を評価した(表3)。
EDTA共存下での抗体の反応性(%)
=EDTA共存下でのOD450 ÷ EDTA非共存下でのOD450 × 100
EDTA共存下での反応性が非共存化での反応性に対して80%以上となった場合、同等と判断し、それ以下の場合はEDTAの影響を受けて反応性が低下すると判断した。
EDTA 0 mM: The enzyme-labeled antibody solution was diluted with the buffer solution in the product kit, and other steps were performed according to the method described in the package insert.
EDTA 3 mM: The enzyme-labeled antibody solution was diluted with a buffer solution in a product kit to which EDTA was added to a final concentration of 3 mM, and other steps were performed according to the method described in the package insert.
EDTA 30 mM: The enzyme-labeled antibody solution was diluted with a buffer solution in a product kit to which EDTA was added to a final concentration of 30 mM, and other steps were performed according to the method described in the package insert.
For the absorbance (OD450) at a measurement wavelength of 450 nm obtained by measurement using the above secondary antibody solution, the reactivity (%) in the presence of EDTA relative to the absence of EDTA was calculated based on the following formula, and the antibody reactivity Were evaluated (Table 3).
Antibody reactivity in the presence of EDTA (%)
= OD450 in the presence of EDTA ÷ OD450 in the absence of EDTA × 100
When the reactivity in the presence of EDTA was 80% or more relative to the reactivity in the absence of coexistence, it was judged to be equivalent, and in the case of less than that, it was judged that the reactivity decreased due to the influence of EDTA.
(評価例1 MMP−3抗体の樹立)
1.抗MMP−3モノクローナル抗体の作製
(1)ハイブリドーマの作製
a.材料
・ヒトMMP−3:正常ヒト線維芽細胞NB1RGB,理研RCB,#RCB022 2の培養上清より精製
・フロインド完全アジュバント:和光純薬工業社製,014−09541
・ミエローマ細胞(SP2/O)
・RPMI1640, GlutaMAX:GIBCO社製,61870−036
・Fetal Bovine Serum (FBS):BIOLOGICAL I NDUSTRIES社製,04−001−1A
・ポリエチレングリコール溶液(PEG):SIGMA,P7306
・HAT 培地:コスモバイオ社製,16213004
・96穴プレート:NUNC,167008
・HRP標識ヤギ抗マウスIgG(γ)抗体:Southern Biotech社 製,1030−05
(Evaluation Example 1 Establishment of MMP-3 Antibody)
1. Preparation of anti-MMP-3 monoclonal antibody (1) Preparation of hybridoma a. Materials • Human MMP-3: purified from culture supernatant of normal human fibroblasts NB1RGB, RIKEN RCB, # RCB0222 • Freund complete adjuvant: Wako Pure Chemical Industries, 014-09541
・ Myeloma cells (SP2 / O)
RPMI1640, GlutaMAX: GIBCO, 61870-036
・ Fetal Bovine Serum (FBS): manufactured by Biologic I NDUSTRIES, 04-001-1A
-Polyethylene glycol solution (PEG): SIGMA, P7306
HAT medium: Cosmo Bio, 16213004
96-well plate: NUNC, 167008
HRP-labeled goat anti-mouse IgG (γ) antibody: manufactured by Southern Biotech, 1030-05
b.方法
(動物への免疫)
ヒトMMP−3とフロインド完全アジュバンドを等量ずつ混合して調製したエマルジョンを用い、オスのBALB/cマウスの腹腔もしくはフットパットに1匹あたり30μgを注射した。さらに、1週間の間隔で2〜7回、該エマルジョンの注射を繰り返した。マウス眼底静脈より採血して得た抗血清中の抗体価を、後述する抗原固相化ELISA法にて測定した。
b. Method (immunity to animals)
Using an emulsion prepared by mixing equal amounts of human MMP-3 and Freund's complete adjuvant, 30 μg per mouse was injected into the peritoneal cavity or foot pad of male BALB / c mice. Further, the emulsion injection was repeated 2-7 times at one week intervals. The antibody titer in the antiserum obtained by collecting blood from the mouse fundus vein was measured by the antigen-immobilized ELISA method described later.
(抗体価の確認(抗原固相化ELISA法))
上述のマウス抗血清中の抗MMP−3抗体の存在を、ヒトMMP−3を固相化したELISA法(抗原固相化ELISA法)で確認した。抗原固相化ELISA法の詳細は以下である。
先ず、1μg/mLになるようヒトMMP−3を、150mM塩化ナトリウムを含む10mMリン酸緩衝液(pH7.2;以下、PBSという)に溶解してMMP−3溶解液とし、該溶解液50μLを96穴マイクロプレートの各ウェルに分注して、4℃で1晩静置した。
前記各ウェルを0.05%Tween(登録商標)20を含むPBS(以下、PBSTという)300μLで3回洗浄した後、1%牛血清アルブミンを含むPBST(以下、BSA−PBSTという)300μLを加え、室温で1時間ブロッキングを行った。
前記各ウェルをBSA−PBSTで3回洗浄した後、BSA−PBSTで10倍から100倍に希釈したマウス抗血清50μLを前記各ウェルに添加し、室温で1時間静置した。
前記各ウェルをPBSTで3回洗浄した後、5000倍希釈したHRP標識ヤギ抗マウスIgG(γ)を50μL前記各ウェルに分注し、室温で1時間静置した。
前記各ウェルをPBSTで3回洗浄した後、0.2%オルトフェニレンジアミン及び0.02%過酸化水素を含むクエン酸緩衝液(pH5.0)50μLを加え、室温で10分間放置後、4.5N硫酸50μLを加えて酵素反応を停止させ、波長492nmにおける吸光度を測定した。測定の結果、抗体価の高かったマウスから、脾臓もしくはリンパ節を摘出して、脾臓由来細胞もしくはリンパ節由来細胞を調製し、細胞融合に用いた。
(Confirmation of antibody titer (antigen-immobilized ELISA method))
The presence of the anti-MMP-3 antibody in the above-mentioned mouse antiserum was confirmed by ELISA method (antigen-immobilized ELISA method) in which human MMP-3 was immobilized. Details of the antigen-immobilized ELISA method are as follows.
First, human MMP-3 was dissolved in a 10 mM phosphate buffer solution (pH 7.2; hereinafter referred to as PBS) containing 150 mM sodium chloride so as to be 1 μg / mL to prepare an MMP-3 solution, and 50 μL of the solution was added. The solution was dispensed into each well of a 96-well microplate and allowed to stand overnight at 4 ° C.
Each well was washed three times with 300 μL of PBS containing 0.05% Tween (registered trademark) 20 (hereinafter referred to as PBST), and then 300 μL of PBST containing 1% bovine serum albumin (hereinafter referred to as BSA-PBST) was added. Blocking was performed at room temperature for 1 hour.
After each well was washed 3 times with BSA-PBST, 50 μL of mouse antiserum diluted 10-fold to 100-fold with BSA-PBST was added to each well and allowed to stand at room temperature for 1 hour.
Each well was washed three times with PBST, and then 50 μL of HRP-labeled goat anti-mouse IgG (γ) diluted 5000 times was dispensed into each well and allowed to stand at room temperature for 1 hour.
Each well was washed 3 times with PBST, 50 μL of citrate buffer solution (pH 5.0) containing 0.2% orthophenylenediamine and 0.02% hydrogen peroxide was added, and the mixture was allowed to stand at room temperature for 10 minutes. The enzyme reaction was stopped by adding 50 μL of 5N sulfuric acid, and the absorbance at a wavelength of 492 nm was measured. As a result of the measurement, spleen or lymph node was extracted from a mouse having a high antibody titer, and spleen-derived cells or lymph node-derived cells were prepared and used for cell fusion.
(細胞融合)
前記脾臓由来細胞もしくはリンパ節由来細胞のいずれかとミエローマ細胞を細胞数で6対1の割合で混合し、PEGを添加して細胞融合させた。該融合させた細胞をHAT培地に懸濁し、CO2インキュベータ内で37℃、5%CO2にて8日間培養して、融合細胞(ハイブリドーマ)を得た。
(Cell fusion)
Either the spleen-derived cells or lymph node-derived cells and myeloma cells were mixed at a cell ratio of 6: 1, and PEG was added to effect cell fusion. The fused cells were suspended in HAT medium and cultured in a CO 2 incubator at 37 ° C. and 5% CO 2 for 8 days to obtain fused cells (hybridomas).
(2)ハイブリドーマの選別
(抗原固相化ELISA法での選別)
上述の抗原固相化ELISA法において、マウス抗血清の代わりに融合細胞の培養上清を用いた以外は、同様の方法を行った。測定の結果、吸光度の高いウェルを抗MMP−3抗体産生ハイブリドーマの存在するウエル(陽性ウエル)として選択し、抗MMP−3抗体産生株を選抜した。
(2) Selection of hybridoma (selection by ELISA using solid phase antigen)
In the antigen-immobilized ELISA method described above, the same method was performed except that the culture supernatant of the fused cells was used instead of the mouse antiserum. As a result of the measurement, a well having a high absorbance was selected as a well in which an anti-MMP-3 antibody-producing hybridoma was present (positive well), and an anti-MMP-3 antibody-producing strain was selected.
(競合ELISA法での選別)
上述の抗原固相化ELISA法において、ヒトMMP−3を共存させて、競合ELISA法を行った。
測定の結果、吸光度の高いウェルを抗MMP−3抗体産生ハイブリドーマの存在するウエル(陽性ウエル)として選択し、抗MMP−3抗体産生株を選抜した。
上述の2種類の選別方法でともに抗MMP−3抗体産生株として選択されたハイブリドーマを用いて、ハイブリドーマの単クローン化とモノクローナル抗体の精製を行った。
(Selection by competitive ELISA method)
In the above-described antigen-immobilized ELISA method, a competitive ELISA method was performed in the presence of human MMP-3.
As a result of the measurement, a well having a high absorbance was selected as a well in which an anti-MMP-3 antibody-producing hybridoma was present (positive well), and an anti-MMP-3 antibody-producing strain was selected.
Using the hybridoma selected as an anti-MMP-3 antibody-producing strain by both of the above-mentioned two kinds of selection methods, single cloning of the hybridoma and purification of the monoclonal antibody were performed.
(3)モノクローナル抗体の精製
単クローン化は定法(限界希釈法)で行い、上述の2種類のELISA法と同様の方法で陽性ウェルを選別し、最終的に26種の抗MMP−3モノクローナル抗体産生ハイブリドーマを得た。
各細胞の約105個をプリスタン前処理したマウス腹腔に投与し、生成した腹水をそれぞれ採取した。採取した各腹水から遠心分離により不溶物を除去し、等量の飽和硫安液を加え、撹拌しながら1晩放置後、遠心分離で沈殿を回収した。回収した沈殿を20mM Tris緩衝液(pH8.0)に溶解し、同緩衝液で透析した。透析内容物それぞれを同緩衝液で平衡化したDEAE−セファロースカラムに別個に吸着させた後、それぞれ同緩衝液中の塩化ナトリウム0〜300mMの濃度勾配で溶出させて得たIgG画分を50mMグリシン緩衝液で透析して、26種の抗体を得た。
(3) Purification of monoclonal antibody Monocloning is performed by a conventional method (limit dilution method), positive wells are selected by the same method as the above-mentioned two kinds of ELISA methods, and finally 26 anti-MMP-3 monoclonal antibodies are selected. A production hybridoma was obtained.
About 10 5 cells were administered to the abdominal cavity of mice pretreated with pristane, and the ascites produced were collected. Insoluble matter was removed from each collected ascites by centrifugation, an equal amount of saturated ammonium sulfate solution was added, and the mixture was allowed to stand overnight with stirring, and then the precipitate was collected by centrifugation. The recovered precipitate was dissolved in 20 mM Tris buffer (pH 8.0) and dialyzed against the same buffer. After each dialysis content was separately adsorbed on a DEAE-Sepharose column equilibrated with the same buffer, the IgG fraction obtained by elution with a concentration gradient of 0 to 300 mM sodium chloride in the same buffer was added to 50 mM glycine. Dialyzed against buffer, 26 antibodies were obtained.
(4)抗体の組み合わせの評価
上記26種クロ−ンのなかから、さらに以下の方法で、各抗体の組み合わせを評価した。
各クロ−ンの抗MMP−3モノクロ−ナル抗体を、2μg/mLになるようPBSに希釈してMMP−3抗体液とし、該溶解液50μLを96穴マイクロプレ−トの各ウェルに分注して、4℃で1晩静置した。
前記各ウェルをPBST400μLで3回洗浄した後、BSA−PBST100μLを加え、室温で1時間ブロッキングを行った。
BSA−PBSTにて100ng/mLに希釈した抗原50μLを前記各ウェルに添加し、室温で1時間静置した。
前記各ウェルをPBSTで3回洗浄した後、あらかじめビオチン標識した各モノクロ−ナル抗体をPBSTで1.5μg/mLに希釈し、50μL前記各ウェルに分注して、室温で1時間静置した。
前記各ウェルをPBSTで3回洗浄した後、0.2%オルトフェニレンジアミン及び0.02%過酸化水素を含むクエン酸緩衝液(pH5.0)50μLを加え、室温で10分間放置後、4.5N硫酸50μLを加えて酵素反応を停止させ、波長492nmにおける吸光度(OD492)を測定した。このなかからOD492が0.5以上となる組み合わせが可能な10抗体を選別した。このとき吸光度を認めた組み合わせを表4に示す。
なお、各組み合わせについて、OD492が0.2以上:+、0.5以上:++、1.0以上:+++と判定した。
(4) Evaluation of antibody combinations Among the above 26 types of clones, combinations of antibodies were further evaluated by the following method.
The anti-MMP-3 monoclonal antibody of each clone was diluted to 2 μg / mL in PBS to prepare an MMP-3 antibody solution, and 50 μL of the lysate was dispensed into each well of a 96-well microplate. And left at 4 ° C. overnight.
Each well was washed 3 times with 400 μL of PBST, and then 100 μL of BSA-PBST was added, followed by blocking at room temperature for 1 hour.
50 μL of antigen diluted to 100 ng / mL with BSA-PBST was added to each well and allowed to stand at room temperature for 1 hour.
Each well was washed 3 times with PBST, and each monoclonal antibody previously labeled with biotin was diluted to 1.5 μg / mL with PBST, dispensed in 50 μL to each well, and allowed to stand at room temperature for 1 hour. .
Each well was washed 3 times with PBST, 50 μL of citrate buffer solution (pH 5.0) containing 0.2% orthophenylenediamine and 0.02% hydrogen peroxide was added, and the mixture was allowed to stand at room temperature for 10 minutes. The enzyme reaction was stopped by adding 50 μL of 5N sulfuric acid, and the absorbance at a wavelength of 492 nm (OD492) was measured. From these, 10 antibodies capable of being combined with an OD492 of 0.5 or more were selected. Table 4 shows the combinations in which the absorbance was recognized.
For each combination, the OD492 was determined to be 0.2 or higher: +, 0.5 or higher: ++, 1.0 or higher: ++.
(評価例2 EDTA共存下でも非共存下と同等の反応性を有する抗体の選別(2次抗体に市販ポリクロ−ナル抗体を用いた評価))
2μg/mLになるよう各クロ−ンの抗MMP−3モノクロ−ナル抗体を、PBSに希釈してMMP−3抗体液とし、該溶解液50μLを96穴マイクロプレ−トの各ウェルに分注して、4℃で1晩静置した。
前記各ウェルをPBST 400μLで3回洗浄した後、BSA−PBST100μLを加え、室温で1時間ブロッキングを行った。
4000ng/mLの抗原液をBSA−PBST、あるいは3mMEDTAを含むBSA−PBSTで400ng/mLに希釈した抗原50μLを前記各ウェルに添加し、室温で1時間静置した。
前記各ウェルをPBSTで3回洗浄した後、0.2μg/mLに調製したウサギ抗MMP−3ポリクロ−ナル抗体(Santacruz sc6839−R)を50μL前記各ウェルに分注し、室温で1時間静置した。
3000倍希釈したHRP標識抗ウサギ抗体(BIO−RAD Laboratories.Inc Goat anti−Rabbit IgG (H+L)−HRP conjugate #172−1019)を50μL前記各ウェルに分注し、室温で1時間静置した。
前記各ウェルをPBSTで3回洗浄した後、0.2%オルトフェニレンジアミン及び0.02%過酸化水素を含むクエン酸緩衝液(pH5.0)50μLを加え、室温で10分間放置後、1.5N硫酸50μLを加えて酵素反応を停止させ、波長492nmにおける吸光度OD492を測定した。
得られたOD492から、下式に基づいてEDTA共存下での抗体の反応性(%)を算出した。
EDTA共存下での抗体の反応性(%)
=EDTA共存下でのOD492 ÷ EDTA非共存下でのOD492 × 100
EDTA非共存下に対して80〜120%の反応性の高い反応性を有したクロ−ンは+、80%以下と反応性が低かったクロ−ンは−と判定した(表5)。このなかでクロ−ン82216、82245に関してはEDTA非共存下でも反応性を確認することができなかった。これらの抗体は市販のウサギポリクローナル抗体と抗原との反応性を妨害している可能性が考えられたため、該抗体を含め引き続き本発明のモノクローナル抗体同士を組み合わせたサンドイッチELISAにおけるEDTAの影響を評価した
(Evaluation Example 2 Selection of antibodies having reactivity equivalent to that in the absence of EDTA (evaluation using a commercially available polyclonal antibody as the secondary antibody))
The anti-MMP-3 monoclonal antibody of each clone was diluted in PBS to 2 μg / mL to prepare an MMP-3 antibody solution, and 50 μL of the lysate was dispensed into each well of a 96-well microplate. And left at 4 ° C. overnight.
Each well was washed 3 times with 400 μL of PBST, and then 100 μL of BSA-PBST was added, followed by blocking at room temperature for 1 hour.
An antigen solution of 4000 ng / mL diluted to 400 ng / mL with BSA-PBST or BSA-PBST containing 3 mM EDTA was added to each well, and allowed to stand at room temperature for 1 hour.
Each well was washed 3 times with PBST, and then 50 μL of rabbit anti-MMP-3 polyclonal antibody (Santacruz sc6839-R) prepared to 0.2 μg / mL was dispensed into each well and allowed to stand at room temperature for 1 hour. I put it.
HRP-labeled anti-rabbit antibody (BIO-RAD Laboratories. Inc. Goat anti-Rabbit IgG (H + L) -HRP conjugate # 172-1019) diluted 3000 times was dispensed into each well and allowed to stand at room temperature for 1 hour.
Each well was washed 3 times with PBST, 50 μL of citrate buffer (pH 5.0) containing 0.2% orthophenylenediamine and 0.02% hydrogen peroxide was added, and the mixture was allowed to stand at room temperature for 10 minutes. The enzyme reaction was stopped by adding 50 μL of 5N sulfuric acid, and the absorbance OD492 at a wavelength of 492 nm was measured.
Based on the obtained OD492, the reactivity (%) of the antibody in the presence of EDTA was calculated based on the following formula.
Antibody reactivity in the presence of EDTA (%)
= OD492 in the presence of EDTA ÷ OD492 × 100 in the absence of EDTA
The clones having a high reactivity of 80 to 120% in the absence of EDTA were determined as +, and the clones having a reactivity as low as 80% or less were determined as-(Table 5). Among them, the reactivity of clones 82216 and 82245 could not be confirmed even in the absence of EDTA. Since these antibodies may interfere with the reactivity between the commercially available rabbit polyclonal antibody and the antigen, the influence of EDTA in the sandwich ELISA in which the monoclonal antibodies of the present invention were continuously combined, including the antibody, was evaluated.
(評価例3 EDTA共存下でも非共存下と同等の反応性を有する抗体の選別(二次抗体にモノクローナル抗体を用いた評価))
) 固相状態でのEDTAの影響評価 一次スクリ−ニング〈2〉
上記(評価例2)において、反応性を認めなかった抗体については、評価例1で示す、各モノクロ−ナル抗体同士の事前検討で、サンドイッチELISAが成立した組み合わせの抗体を用いて再評価した。
具体的な方法としては、評価例2で用いたウサギ抗MMP−3ポリクロ−ナル抗体を、評価クロ−ンとサンドイッチが形成できるクロ−ン(ここでは82208、82211、82213を使用した)に置き換えた以外は、(評価例2)と同様にした。
82216、82245はいずれもEDTA共存下で非共存下と同等の反応性を有することを確認した。
(Evaluation Example 3 Selection of an antibody having reactivity equivalent to that in the absence of EDTA (evaluation using a monoclonal antibody as a secondary antibody))
) Evaluation of the effect of EDTA in the solid phase Primary screening <2>
In the above (Evaluation Example 2), antibodies that did not show reactivity were re-evaluated by using a combination of antibodies in which sandwich ELISA was established in the preliminary examination between the monoclonal antibodies shown in Evaluation Example 1.
As a specific method, the rabbit anti-MMP-3 polyclonal antibody used in Evaluation Example 2 is replaced with a clone that can form a sandwich with the evaluation clone (82208, 82211, and 82213 are used here). Except for the above, it was the same as (Evaluation Example 2).
It was confirmed that both 82216 and 82245 have the same reactivity in the presence of EDTA and in the absence of EDTA.
〔実施例、比較例〕
以上の評価結果に基づき、サンドイッチが成立し、かつEDTAの影響を受けにくい抗体同士を組み合わせて、同一の健常人ドナ−から採取した血清、血漿(ヘパリン、EDTA)ペア検体を測定した。血清検体の測定値と、血漿検体の測定値から、次式に基づいて
対血清測定値比(%)を算出した。なお、測定値比(%)が80%〜120%の場合に測定が正確と判定した。
比較例1 82212抗体と82216抗体の組み合わせでは、対血清の測定値比(%)が26.8−71.3%と、いずれの検体でも血漿測定値が低値化していることがわかる。一方実施例1−6で示すように、EDTA共存下とEDTA非共存化で反応性が同等の抗体同士を組み合わせた場合、対血清の測定値比は80〜120%となり、血漿検体が正確に測定できていることがわかった。
以上のことから、評価例1−4で評価した方法で、EDTA共存下でEDTA非共存下と同等の反応性を有する抗体を選別し、このクロ−ンを組み合わせた測定系を用いることで、EDTA含有試料でも正確に測定値が得られることが確認できた。
Examples and comparative examples
Based on the above evaluation results, serum and plasma (heparin, EDTA) pair specimens collected from the same healthy donor were measured by combining antibodies that were sandwiched and were not easily affected by EDTA. Based on the measured value of the serum sample and the measured value of the plasma sample, the ratio (%) to the measured value of serum was calculated based on the following formula. Note that the measurement was determined to be accurate when the measured value ratio (%) was 80% to 120%.
Comparative Example 1 With the combination of the 82212 antibody and the 82216 antibody, the measurement value ratio (%) to serum was 26.8-71.3%, indicating that the plasma measurement value was low in any sample. On the other hand, as shown in Example 1-6, when antibodies having the same reactivity in the presence of EDTA and in the absence of EDTA are combined, the measurement ratio of serum is 80 to 120%, and the plasma sample is accurately I found that I was able to measure.
From the above, by the method evaluated in Evaluation Example 1-4, by selecting an antibody having reactivity equivalent to that in the absence of EDTA in the presence of EDTA, and using a measurement system that combines this clone, It was confirmed that the measured value was obtained accurately even with the EDTA-containing sample.
(評価例4) BIA法(Biacore)を用いた生体分子間相互作用の解析
上記実施例及び比較例に用いた抗体について、生体分子間相互作用解析法をもちいて、EDTA共存下及び非共存下での、各モノクロ−ナル抗体とMMP−3抗原とのアフィニティについて評価した
測定にはBiacore T100(GE Healthcare)を用いた。Human Antibody Capture Kitの推奨プロトコ−ルに従って、抗ヒトIgG抗体をSensor Chip CM5に固定化し、測定に使用した。
10mMHEPESpH7.4、150mMNaCl、0.005%Tween20からなるHBS緩衝液、あるいは3mM EDTAを含むHBS緩衝液をランニングバッファ−として、以下の方法で抗体のKD値を算出した。まず、HBSで5μg/mLに調製した各モノクロ−ナル抗体マイクロ流路系に流し、固定化した抗IgG抗体にキャプチャ−させた。
引き続きランニングバッファ−で0、2.5、5μg/mLに調製したMMP−3抗原をマイクロ流路系に流し、抗MMP−3抗体にキャプチャ−させた。このときの表面プラズモン共鳴RUを測定、結合測定定数ka、Rmaxを測定した。引き続き、ランニングバッファ−のみを流し、キャプチャ−させた抗原をしばらく遊離させ、解離速度定数kd値を算出した。描かれたセンサ−グラムの形状から、抗体−抗原の解離定数KD値を次式に基づき算出した。
KD = kd / ka
なお、このka、kd、KD、RmaxはBiacoreT100にて自動算出される。この際、必要となるMMP−3の分子量については、潜在型MMP−3の分子量57,000に設定した。その後再生バッファ−を流して、チップを再生し、チップは繰り返し使用した。
このようにしてえられた、EDTA非共存下とEDTA共存下でのそれぞれのKDとRmaxから、次式の通り、EDTA共存下での非共存下に対する割合を算出した。
EDTA共存下での非共存下に対する割合 %
=各EDTA濃度での値÷EDTA非共存下での値×100
抗体のアフィニティ−の強さを示すKD値と、抗原の結合量を示すRmaxの、EDTA無添加に対するEDTA添加時の割合がそれぞれ200%未満、65%以上のとき、その抗体はEDTA共存下で同等の反応性を示すと判断した。結果を表8に示す。
(Evaluation Example 4) Analysis of interaction between biomolecules using BIA method (Biacore) The antibodies used in the above examples and comparative examples were analyzed in the presence of EDTA and in the absence of coexistence using the biomolecule interaction analysis method. Biacore T100 (GE Healthcare) was used for the measurement in which the affinity between each monoclonal antibody and MMP-3 antigen was evaluated. In accordance with the recommended protocol of Human Antibody Capture Kit, anti-human IgG antibody was immobilized on Sensor Chip CM5 and used for measurement.
The KD value of the antibody was calculated by the following method using an HBS buffer consisting of 10 mM HEPES pH 7.4, 150 mM NaCl, 0.005% Tween 20, or an HBS buffer containing 3 mM EDTA as a running buffer. First, each monoclonal antibody microchannel system prepared to 5 μg / mL with HBS was flowed to capture the immobilized anti-IgG antibody.
Subsequently, the MMP-3 antigen prepared to 0, 2.5, and 5 μg / mL with a running buffer was passed through the microchannel system and captured by the anti-MMP-3 antibody. At this time, the surface plasmon resonance RU was measured, and the binding measurement constants ka and Rmax were measured. Subsequently, only the running buffer was passed, the captured antigen was released for a while, and the dissociation rate constant kd value was calculated. The antibody-antigen dissociation constant KD value was calculated from the shape of the drawn sensor-gram based on the following equation.
KD = kd / ka
The ka, kd, KD, and Rmax are automatically calculated by the Biacore T100. At this time, the molecular weight of MMP-3 required was set to a molecular weight of 57,000 of latent MMP-3. Thereafter, the playback buffer was flowed to regenerate the chip, and the chip was repeatedly used.
From the KD and Rmax obtained in the EDTA non-coexistence and EDTA coexistence obtained as described above, the ratio to the non-coexistence in the presence of EDTA was calculated as follows.
Ratio of non-coexistence in the presence of EDTA%
= Value at each EDTA concentration ÷ Value in the absence of EDTA x 100
When the KD value indicating the strength of antibody affinity and the Rmax indicating the amount of antigen binding are less than 200% and 65% or more when EDTA is added to EDTA-free, respectively, the antibody is present in the presence of EDTA. It was judged to show equivalent reactivity. The results are shown in Table 8.
1)EDTA共存下での、ヒトMMP−3との反応平衡定数KD値が、EDTA非共存下での反応平衡定数KD値に対して200%未満。
2)EDTA共存下での、ヒトMMP−3との結合量を示すRmaxが、EDTA非共存下でのRmaxに対して65%以上。
と特徴付けられることを確認した。
1) The reaction equilibrium constant KD value with human MMP-3 in the presence of EDTA is less than 200% of the reaction equilibrium constant KD value in the absence of EDTA.
2) Rmax indicating the amount of binding with human MMP-3 in the presence of EDTA is 65% or more relative to Rmax in the absence of EDTA.
It was confirmed that
本発明のモノクロ−ナル抗体は、EDTA共存下におけるヒトMMP−3と反応性を指標に選択されるため、EDTA含有試料中でも正確にMMP−3濃度を定量することが可能となる。
また、本発明のモノクロ−ナル抗体により、EDTA含有試料、たとえばEDTA血漿中のMMP−3濃度を正確に定量するヒトMMP−3の免疫凝集測定試薬及び測定キットを提供する。
本発明のモノクロ−ナル抗体を用いた免疫学的測定方法、免疫学的測定試薬、測定キットでは、1試薬で血清、ヘパリン血漿、EDTA血漿のMMP−3濃度を正確に測定することができるようになり、慢性関節リウマチの臨床診断薬としてより正確なMMP−3測定値を提供することが可能となる。
Since the monoclonal antibody of the present invention is selected based on the reactivity with human MMP-3 in the presence of EDTA, the MMP-3 concentration can be accurately quantified even in an EDTA-containing sample.
Also provided are a human MMP-3 immunoagglutination measurement reagent and measurement kit for accurately quantifying the concentration of MMP-3 in an EDTA-containing sample, for example, EDTA plasma, using the monoclonal antibody of the present invention.
In the immunological measurement method, immunological measurement reagent and measurement kit using the monoclonal antibody of the present invention, the MMP-3 concentration of serum, heparin plasma, and EDTA plasma can be accurately measured with one reagent. Thus, it becomes possible to provide a more accurate MMP-3 measurement value as a clinical diagnostic agent for rheumatoid arthritis.
[寄託生物材料への言及]
(1)82208抗体を産生するハイブリドーマ82208
イ 当該生物材料を寄託した寄託機関の名称及び住所
独立行政法人 産業技術総合研究所 特許生物寄託センター
日本国茨城県つくば市東1丁目1番地1中央6(郵便番号305−8566)
ロ イの寄託機関に生物材料を寄託した日付
平成24年1月27日(2012年1月27日)
ハ イの寄託機関が寄託について付した受託番号
FERM P−22219(82208)
(2)82211抗体を産生するハイブリドーマ82211
イ 当該生物材料を寄託した寄託機関の名称及び住所
独立行政法人 産業技術総合研究所 特許生物寄託センター
日本国茨城県つくば市東1丁目1番地1中央6(郵便番号305−8566)
ロ イの寄託機関に生物材料を寄託した日付
平成23年6月16日(2011年6月16日)
ハ イの寄託機関が寄託について付した受託番号
FERM P−22131(82211)
(3)82213抗体を産生するハイブリドーマ82213
イ 当該生物材料を寄託した寄託機関の名称及び住所
独立行政法人 産業技術総合研究所 特許生物寄託センター
日本国茨城県つくば市東1丁目1番地1中央6(郵便番号305−8566)
ロ イの寄託機関に生物材料を寄託した日付
平成23年6月16日(2011年6月16日)
ハ イの寄託機関が寄託について付した受託番号
FERM P−22132(82213)
(4)82216抗体を産生するハイブリドーマ82216
イ 当該生物材料を寄託した寄託機関の名称及び住所
独立行政法人 産業技術総合研究所 特許生物寄託センター
日本国茨城県つくば市東1丁目1番地1中央6(郵便番号305−8566)
ロ イの寄託機関に生物材料を寄託した日付
平成22年4月27日(2010年4月27日)(原寄託日)
平成24年5月25日(2012年5月25日)(原寄託によりブタペスト条約に基づく寄託への移管日)
ハ イの寄託機関が寄託について付した受託番号
FERM BP−11486(82216)
(5)82245抗体を産生するハイブリドーマ82245
イ 当該生物材料を寄託した寄託機関の名称及び住所
独立行政法人 産業技術総合研究所 特許生物寄託センター
日本国茨城県つくば市東1丁目1番地1中央6(郵便番号305−8566)
ロ イの寄託機関に生物材料を寄託した日付
平成23年6月16日(2011年6月16日)
ハ イの寄託機関が寄託について付した受託番号
FERM P−22133(82245)
[Reference to deposited biological materials]
(1) Hybridoma 82208 producing 82208 antibody
The name and address of the depository institution that deposited the biological material National Institute of Advanced Industrial Science and Technology Patent Biological Deposit Center 1-chome, 1-chome, East 1-chome, Tsukuba, Ibaraki, Japan (zip code 305-8586)
Date of deposit of biological materials at the depository in Loi January 27, 2012 (January 27, 2012)
Deposit number FERM P-22219 (82208) attached to the depositary of the high
(2) Hybridoma 82211 that produces the 82211 antibody
The name and address of the depository institution that deposited the biological material National Institute of Advanced Industrial Science and Technology Patent Biological Deposit Center 1-chome, 1-chome, East 1-chome, Tsukuba, Ibaraki, Japan (zip code 305-8586)
Date of deposit of biological materials at Loi depository June 16, 2011 (June 16, 2011)
Deposit number FERM P-22131 (82211) attached to the depositary of the high
(3) Hybridoma 82213 producing 82213 antibody
The name and address of the depository institution that deposited the biological material National Institute of Advanced Industrial Science and Technology Patent Biological Deposit Center 1-chome, 1-chome, East 1-chome, Tsukuba, Ibaraki, Japan (zip code 305-8586)
Date of deposit of biological materials at Loi depository June 16, 2011 (June 16, 2011)
Deposit number FERM P-22132 (82213) attached to the depository by the high depository
(4) Hybridoma 82216 producing 82216 antibody
The name and address of the depository institution that deposited the biological material National Institute of Advanced Industrial Science and Technology Patent Biological Deposit Center 1-chome, 1-chome, East 1-chome, Tsukuba, Ibaraki, Japan (zip code 305-8586)
Date of deposit of biological materials at the depository in Loi April 27, 2010 (April 27, 2010) (original deposit date)
May 25, 2012 (May 25, 2012) (Transfer date to the deposit under the Budapest Treaty by the original deposit)
Deposit number FERM BP-11486 (82216) attached by the depository institution of high
(5) Hybridoma 82245 producing 82245 antibody
The name and address of the depository institution that deposited the biological material National Institute of Advanced Industrial Science and Technology Patent Biological Deposit Center 1-chome, 1-chome, East 1-chome, Tsukuba, Ibaraki, Japan (zip code 305-8586)
Date of deposit of biological materials at Loi depository June 16, 2011 (June 16, 2011)
Deposit number FERM P-22133 (82245) attached to the depository by the depository in Hai
Claims (15)
EDTA共存下においてEDTA非共存下と同等の結合力を有する抗MMP−3モノクロ−ナル抗体と試料中のMMP−3を接触させる工程を含む、測定方法。 A method for measuring MMP-3 in a sample, comprising:
A measurement method comprising a step of contacting an anti-MMP-3 monoclonal antibody having a binding force equivalent to that in the absence of EDTA in the presence of EDTA with MMP-3 in the sample.
(1)EDTA共存下におけるヒトMMP−3との反応平衡定数(KD値)が、EDTA非共存下におけるKD値に対して200%未満
(2)EDTA共存下におけるヒトMMP−3との結合量を示すRmaxが、EDTA非共存下でのRmaxに対して65%以上 The measurement method according to claim 2 or 3, wherein the two or more kinds of antibodies satisfy the following (1) and (2).
(1) The reaction equilibrium constant (KD value) with human MMP-3 in the presence of EDTA is less than 200% of the KD value in the absence of EDTA. (2) Amount of binding with human MMP-3 in the presence of EDTA Rmax indicating 65% or more relative to Rmax in the absence of EDTA
(1)EDTA共存下におけるヒトMMP−3との反応平衡定数(KD値)が、EDTA非共存下におけるKD値に対して200%未満
(2)EDTA共存下におけるヒトMMP−3との結合量を示すRmaxが、EDTA非共存下でのRmaxに対して65%以上 9. The anti-MMP-3 monoclonal antibody according to claim 8, wherein the binding force with human MMP-3 equivalent to that in the absence of EDTA in the presence of EDTA satisfies the following (1) and (2).
(1) The reaction equilibrium constant (KD value) with human MMP-3 in the presence of EDTA is less than 200% of the KD value in the absence of EDTA. (2) Amount of binding with human MMP-3 in the presence of EDTA Rmax indicating 65% or more relative to Rmax in the absence of EDTA
工程1:MMP−3を免疫源として、非ヒト動物に免疫する工程
工程2:MMP−3に対する結合力が高い抗体を産生する免疫担当細胞を選択する工程
工程3:工程2で選択した免疫担当細胞を使用してハイブリドーマを取得する工程
工程4:工程3で取得したハイブリドーマを使用して抗MMP−3モノクロ−ナル抗体を取得する工程。
工程5:前記工程2〜4のいずれか一工程において、EDTA共存下とEDTA非共存下それぞれの条件におけるヒトMMP−3に対する結合力を評価し、EDTA共存下とEDTA非共存下で結合力が同等のクローンを選択する工程 The anti-MMP-3 monoclonal antibody according to claim 8 or 9 selected by a method comprising the following steps.
Step 1: Immunize a non-human animal using MMP-3 as an immunogen Step 2: Select an immunocompetent cell that produces an antibody having a high binding power to MMP-3 Step 3: The immunocompetent selected in Step 2 Step of obtaining hybridoma using cells Step 4: Step of obtaining anti-MMP-3 monoclonal antibody using the hybridoma obtained in Step 3.
Step 5: In any one of the steps 2 to 4, the binding strength to human MMP-3 in each of the conditions in the presence of EDTA and in the absence of EDTA is evaluated, and the binding strength is determined in the presence of EDTA and in the absence of EDTA. The process of selecting equivalent clones
工程1)ヒトMMP−3を免疫源として、抗MMP−3抗体産生ハイブリド−マを取得する工程
工程2)工程1で取得したハイブリド−マが産生する抗体を、ヒトMMP−3と接触させて、結合力が強い抗体を産生するハイブリド−マを選択し、このハイブリド−マが産生する抗体を取得する工程
工程3)工程2で取得した抗体について、EDTA共存下とEDTA非共存下それぞれのヒトMMP−3に対する結合力を評価し、EDTA共存下とEDTA非共存下で結合力が同等のクローンを選択する工程 A method for producing an anti-MMP-3 monoclonal antibody according to claim 8 or 9, comprising the following steps.
Step 1) Obtaining an anti-MMP-3 antibody-producing hybridoma using human MMP-3 as an immunogen Step 2) Contacting the antibody produced by the hybridoma obtained in Step 1 with human MMP-3 , Selecting a hybridoma that produces an antibody having a strong binding force, and obtaining an antibody produced by this hybridoma. Step 3) For the antibody obtained in step 2, each human in the presence of EDTA and in the absence of EDTA A process of evaluating the binding strength to MMP-3 and selecting clones having the same binding strength in the presence of EDTA and in the absence of EDTA
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