在异种移植模型中定位后，抗癌胚抗原羧肽酶G2缀合物在血液中的失活与清除

Inactivation and clearance of an anti-CEA carboxypeptidase G2 conjugate in blood after localisation in a xenograft model.

作者信息

Sharma S K, Bagshawe K D, Burke P J, Boden R W, Rogers G T

机构信息

Department of Medical Oncology, Charing Cross Hospital, London, UK.

出版信息

Br J Cancer. 1990 May;61(5):659-62. doi: 10.1038/bjc.1990.149.

DOI:10.1038/bjc.1990.149

PMID:2337503

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1971605/

Abstract

Studies with a conjugate of carboxypeptidase G2 (CPG2) and the F(ab')2 fragment of monoclonal anti-CEA antibody, A5B7, have shown specific localisation in a human colon tumour xenograft, LS174T, growing in nude mice. The conjugate reaches a peak concentration in the tumour within 24 h but enzyme activity in blood remains above a critical value for therapeutic purposes for several days. Here we describe a new monoclonal antibody, SB43, raised against CPG2 which is capable of reducing enzyme activity in blood. In vitro studies demonstrated specific binding of SB43 to CPG2 causing inactivation. Moreover, in the nude mouse model SB43 was also capable of inactivating the enzyme in the circulation within minutes of administration. Radiolabelled native SB43 persisted in blood for several days and appreciable non-specific uptake into the xenograft was also observed. Uptake of SB43 by the tumour, with possible inactivation of CPG2 at this site, could be limited by first coupling the antibody to galactose. This ensured recognition and excretion of SB43 and SB43-enzyme complexes via the liver and their rapid removal from the circulation. Galactosylation had no effect on the ability of SB43 to inactivate the enzyme.

摘要

羧肽酶G2（CPG2）与单克隆抗癌胚抗原（CEA）抗体A5B7的F(ab')2片段结合物的研究表明，其在裸鼠体内生长的人结肠肿瘤异种移植物LS174T中有特异性定位。该结合物在24小时内肿瘤中达到峰值浓度，但血液中的酶活性在数天内仍保持在治疗所需的临界值以上。在此，我们描述了一种针对CPG2产生的新单克隆抗体SB43，它能够降低血液中的酶活性。体外研究表明SB43与CPG2特异性结合导致其失活。此外，在裸鼠模型中，SB43在给药后几分钟内也能够使循环中的酶失活。放射性标记的天然SB43在血液中持续存在数天，并且还观察到其在异种移植物中有明显的非特异性摄取。通过首先将抗体与半乳糖偶联，可以限制肿瘤对SB43的摄取以及CPG2在此部位可能的失活。这确保了SB43和SB43 - 酶复合物通过肝脏被识别和排泄，并从循环中快速清除。半乳糖基化对SB43使酶失活的能力没有影响。

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