Mechanisms of resistance to RET-directed therapies.

Roderick J Clifton-Bligh
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Abstract

The association between RET and multiple endocrine neoplasia type 2 was established in 1993 and remains one of the very few oncogenes for which distinct phenotypes (medullary thyroid cancer or phaeochromocytoma) are associated with the same hot-spot variants occurring either in germline or somatic DNA. Somatic RET fusion events have also been described in several cancers, including papillary thyroid cancer, non-small cell lung cancer, breast cancer, salivary gland cancer and pancreatic cancer. Highly selective RET inhibitors have improved outcomes in RET-altered cancers and have been well tolerated. Nevertheless, primary and acquired drug resistance has been observed, arising from distinct genomic alterations either in RET (on target resistance) or via alternate oncogenic pathways (bypass resistance). The same mechanisms of resistance have been observed across multiple cancer types, which implies RET-altered cancers evolve away from RET addiction via stochastic subclonal events. Understanding these mechanisms is crucial for identifying therapeutic opportunities to overcome resistance. Successful treatment targeting bypass oncogenes has been reported in several instances, at least for short-term outcomes; in contrast, although several compounds have been reported to overcome on-target RET alterations, none have yet been translated into routine clinical practice and this remains an area of urgent clinical need.

RET 与多发性内分泌瘤病 2 型之间的关联于 1993 年确立,目前仍是极少数表型(甲状腺髓样癌或嗜铬细胞瘤)与生殖系或体细胞 DNA 中出现的相同热点变异相关的致癌基因之一。在甲状腺乳头状癌、非小细胞肺癌、乳腺癌、唾液腺癌和胰腺癌等多种癌症中也发现了体细胞 RET 融合事件。高选择性 RET 抑制剂改善了 RET 基因改变癌症的治疗效果,而且耐受性良好。然而,也观察到了原发性和获得性耐药性,这些耐药性是由 RET(靶向耐药性)或通过其他致癌途径(旁路耐药性)发生的不同基因组改变引起的。在多种癌症类型中都观察到了相同的耐药机制,这意味着RET改变的癌症通过随机亚克隆事件摆脱了RET成瘾。了解这些机制对于确定克服耐药性的治疗机会至关重要。有报道称,针对旁路癌基因的治疗取得了成功,至少在短期内取得了疗效;相比之下,虽然有报道称有几种化合物可以克服靶向 RET 改变,但还没有一种化合物被转化为常规临床实践,这仍然是临床急需的领域。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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