Loganzo Frank, Tan Xingzhi, Sung Matthew, Jin Guixian, Myers Jeremy S, Melamud Eugene, Wang Fang, Diesl Veronica, Follettie Maximillian T, Musto Sylvia, Lam My-Hanh, Hu William, Charati Manoj B, Khandke Kiran, Kim Kenny Sung Kyoo, Cinque Mike, Lucas Judy, Graziani Edmund, Maderna Andreas, O'Donnell Christopher J, Arndt Kim T, Gerber Hans-Peter
Pfizer Oncology, Pearl River, New York.
Pfizer Oncology, Andover, Massachusetts.
Mol Cancer Ther. 2015 Apr;14(4):952-63. doi: 10.1158/1535-7163.MCT-14-0862. Epub 2015 Feb 2.
Antibody-drug conjugates (ADC) are emerging as clinically effective therapy. We hypothesized that cancers treated with ADCs would acquire resistance mechanisms unique to immunoconjugate therapy and that changing ADC components may overcome resistance. Breast cancer cell lines were exposed to multiple cycles of anti-Her2 trastuzumab-maytansinoid ADC (TM-ADC) at IC80 concentrations followed by recovery. The resistant cells, 361-TM and JIMT1-TM, were characterized by cytotoxicity, proteomic, transcriptional, and other profiling. Approximately 250-fold resistance to TM-ADC developed in 361-TM cells, and cross-resistance was observed to other non-cleavable-linked ADCs. Strikingly, these 361-TM cells retained sensitivity to ADCs containing cleavable mcValCitPABC-linked auristatins. In JIMT1-TM cells, 16-fold resistance to TM-ADC developed, with cross-resistance to other trastuzumab-ADCs. Both 361-TM and JIMT1-TM cells showed minimal resistance to unconjugated mertansine (DM1) and other chemotherapeutics. Proteomics and immunoblots detected increased ABCC1 (MRP1) drug efflux protein in 361-TM cells, and decreased Her2 (ErbB2) in JIMT1-TM cells. Proteomics also showed alterations in various pathways upon chronic exposure to the drug in both cell models. Tumors derived from 361-TM cells grew in mice and were refractory to TM-ADC compared with parental cells. Hence, acquired resistance to trastuzumab-maytansinoid ADC was generated in cultured cancer cells by chronic drug treatment, and either increased ABCC1 protein or reduced Her2 antigen were primary mediators of resistance. These ADC-resistant cell models retain sensitivity to other ADCs or standard-of-care chemotherapeutics, suggesting that alternate therapies may overcome acquired ADC resistance. Mol Cancer Ther; 14(4); 952-63. ©2015 AACR.
抗体药物偶联物(ADC)正逐渐成为临床有效的治疗方法。我们推测,接受ADC治疗的癌症会产生免疫偶联物治疗特有的耐药机制,而改变ADC的成分可能会克服耐药性。将乳腺癌细胞系暴露于IC80浓度的抗Her2曲妥珠单抗-美登素类ADC(TM-ADC)多个周期,随后进行恢复培养。对耐药细胞361-TM和JIMT1-TM进行细胞毒性、蛋白质组学、转录组学及其他分析。361-TM细胞对TM-ADC产生了约250倍的耐药性,并且对其他非可裂解连接的ADC也观察到交叉耐药性。令人惊讶的是,这些361-TM细胞对含有可裂解的mcValCitPABC连接的奥瑞他汀的ADC仍保持敏感性。在JIMT1-TM细胞中,对TM-ADC产生了16倍的耐药性,并对其他曲妥珠单抗-ADC产生交叉耐药性。361-TM和JIMT1-TM细胞对未偶联的美登素(DM1)和其他化疗药物的耐药性均较低。蛋白质组学和免疫印迹检测到361-TM细胞中ABCC1(MRP1)药物外排蛋白增加,而JIMT1-TM细胞中Her2(ErbB2)减少。蛋白质组学还显示,在两种细胞模型中,长期暴露于该药物后,各种信号通路均发生了改变。源自361-TM细胞的肿瘤在小鼠体内生长,与亲代细胞相比,对TM-ADC具有耐药性。因此,通过长期药物治疗在培养的癌细胞中产生了对曲妥珠单抗-美登素类ADC的获得性耐药性,ABCC1蛋白增加或Her2抗原减少是耐药的主要介导因素。这些ADC耐药细胞模型对其他ADC或标准护理化疗药物仍保持敏感性,这表明替代疗法可能克服获得性ADC耐药性。《分子癌症治疗》;14(4);952 - 63。©2015美国癌症研究协会。
