用于免疫募集至低抗原表达癌症的可调多价平台。

Tunable Multivalent Platform for Immune Recruitment to Lower Antigen Expressing Cancers.

作者信息

Lake Benjamin P M, Wylie Ryan G, Bařinka Cyril, Rullo Anthony F

机构信息

Department of Medicine, Center for Discovery in Cancer Research, McMaster University, Hamilton, Ontario, L8S 4K1, Canada.

Department of Chemistry and Chemical Biology, McMaster University, Hamilton, Ontario, L8S 4L8, Canada.

出版信息

Angew Chem Int Ed Engl. 2023 Feb 20;62(9):e202214659. doi: 10.1002/anie.202214659. Epub 2023 Jan 23.

DOI:10.1002/anie.202214659

PMID:36577087

Abstract

Chemical immunotherapeutic strategies including Antibody Recruiting Molecules (ARMs - bivalent small molecules containing an antibody-binding domain (ABD) and a target-binding domain (TBD)) direct immune-mediated clearance of diseased cells. Anti-cancer ARM function relies on high tumor antigen valency, limiting function against lower antigen expressing tumors. To address this limitation, we report a tunable multivalent immune recruitment (MIR) platform to amplify/stabilize antibody recruitment to cells with lower antigen valencies. An initial set of polymeric ARMs (pARMs) were synthesized and screened to evaluate ABD/TBD copy number, ratio, and steric occlusion on specific immune induction. Most pARMs demonstrated simultaneous high avidity binding to anti-dinitrophenyl antibodies and prostate-specific membrane antigens on prostate cancer. Optimized pARMs mediated enhanced anti-cancer immune function against lower antigen expressing target cells compared to an analogous ARM.

摘要

化学免疫治疗策略，包括抗体招募分子（ARMs——含有抗体结合域（ABD）和靶标结合域（TBD）的二价小分子），可直接介导免疫清除病变细胞。抗癌ARM的功能依赖于高肿瘤抗原价态，限制了其对低抗原表达肿瘤的作用。为解决这一局限性，我们报告了一种可调多价免疫招募（MIR）平台，以增强/稳定抗体对低抗原价态细胞的招募。合成并筛选了一组初始的聚合物ARMs（pARMs），以评估ABD/TBD拷贝数、比例和空间位阻对特异性免疫诱导的影响。大多数pARMs在前列腺癌上表现出与抗二硝基苯基抗体和前列腺特异性膜抗原同时具有高亲和力的结合。与类似的ARM相比，优化后的pARMs对低抗原表达的靶细胞介导了增强的抗癌免疫功能。

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用于免疫募集至低抗原表达癌症的可调多价平台。

Tunable Multivalent Platform for Immune Recruitment to Lower Antigen Expressing Cancers.

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