Department of Medical Oncology and Therapeutics Research, City of Hope Comprehensive Cancer Center, 1500 E Duarte Rd. Duarte, CA.
Department of Medical Oncology and Therapeutics Research, City of Hope Comprehensive Cancer Center, 1500 E Duarte Rd. Duarte, CA.
Clin Colorectal Cancer. 2024 Sep;23(3):199-206. doi: 10.1016/j.clcc.2024.05.004. Epub 2024 May 13.
KRAS mutations contribute substantially to the overall colorectal cancer burden and have long been a focus of drug development efforts. After a lengthy preclinical road, KRAS inhibition via the G12C allele has finally become a therapeutic reality. Unlike in NSCLC, early studies of KRAS inhibitors in CRC struggled to demonstrate single agent activity. Investigation into these tissue-specific treatment differences has led to a deeper understanding of the complexities of MAPK signaling and the diverse adaptive feedback responses to KRAS inhibition. EGFR reactivation has emerged as a principal resistance mechanism to KRAS inhibitor monotherapy. Thus, the field has pivoted to dual EGFR/KRAS blockade with promising efficacy. Despite significant strides in the treatment of KRAS G12C mutated CRC, new challenges are on the horizon. Alternative RTK reactivation and countless acquired molecular resistance mechanisms have shifted the treatment goalpost. This review focuses on the historical and contemporary clinical strategies of targeting KRAS G12C alterations in CRC and highlights future directions to overcome treatment challenges.
KRAS 突变在结直肠癌的总体负担中占很大比例,长期以来一直是药物开发的重点。经过漫长的临床前研究,KRAS 抑制 G12C 突变终于成为一种治疗现实。与 NSCLC 不同,早期研究 KRAS 抑制剂在 CRC 中的单药活性的研究进展艰难。对这些组织特异性治疗差异的研究导致人们对 MAPK 信号转导的复杂性和对 KRAS 抑制的不同适应性反馈反应有了更深入的了解。EGFR 重新激活已成为 KRAS 抑制剂单药治疗的主要耐药机制。因此,该领域已转向双重 EGFR/KRAS 阻断,具有良好的疗效。尽管在治疗 KRAS G12C 突变型 CRC 方面取得了重大进展,但新的挑战即将出现。替代 RTK 重新激活和无数获得的分子耐药机制已经改变了治疗目标。本文重点介绍了针对 CRC 中 KRAS G12C 改变的历史和当代临床策略,并强调了克服治疗挑战的未来方向。
