CDK4/6 和 SHP2 在 2 类和 3 类 BRAF 突变癌症中介导 BRAF/MEK 抑制剂的抗药性

medRxiv Pub Date : 2024-07-29 DOI:10.1101/2024.07.28.24311101

A. Rose, Jennifer Maxwell, E. Rousselle, M. Riaud, Islam E. Elkholi, Chantel L. Mukonoweshuro, M. Biondini, Erica Cianfarano, I. Soria-Bretones, Chantal Tobin, Meghan Mcguire, Ian King, Tong Zhang, T. J. Pugh, Z. Kamil, Frances A. Shepherd, Natasha B. Leighl, A. A. Razak, A. Hansen, Sam Saibil, Philippe L. Bedard, Peter M. Siegel, Lillian L. Siu, D. Cescon, A. Spreafico, Dr. Soria Bretones, RocheGenentech, AstraZenecaMedimmune, Abbvie Amgen Symphogen Emd Bayer, Serono, Daiichi Sankyo, M. Gilead, Medicenna Lilly, Takara

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摘要

2 类和 3 类非 V600E BRAF 突变是许多癌症类型的致癌驱动因素。目前，对于非 V600E BRAF 突变的癌症还没有疗效确切的靶向疗法。我们开发了由研究者发起的 BEAVER II 期临床试验（NCT03839342），以评估 BRAF 和 MEK 抑制剂对非 V600E BRAF 突变患者的疗效。最佳客观反应率为 14%（3/21）。通过分析患者肿瘤的基因组数据、循环肿瘤 DNA (ctDNA)、由入组患者生成的患者衍生异种移植 (PDX) 模型以及 2 类和 3 类 BRAF 突变细胞系，我们发现了 BRAF/MEK 抑制剂耐药的 MAPK 依赖性和独立机制。这些机制包括疾病进展时ctDNA中NRAS、MAP2K1、RAF1和RB的新突变。CDK4/6和SHP2被确定为2类和3类BRAF突变肿瘤对BRAF/MEK抑制产生内在耐药性的介质。在这些癌症中，将 CDK4/6 或 SHP2 抑制剂与 BRAF/MEK 抑制剂相结合的治疗策略比单独使用 BRAF/MEK 抑制剂更有效。

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CDK4/6 and SHP2 mediate BRAF/MEK inhibitor resistance in Class 2 and 3 BRAF mutant cancers

Class 2 and 3 non-V600E BRAF mutations are oncogenic drivers in many cancer types. Currently, there are no established targeted therapies with proven efficacy for cancers with non-V600E BRAF mutations. We developed the investigator-initiated, Phase II BEAVER clinical trial (NCT03839342) to evaluate the efficacy of BRAF and MEK inhibitors in patients with non-V600E BRAF mutations. The best objective response rate was 14% (3/21). By analyzing genomic data from patient tumors, circulating tumor DNA (ctDNA), patient-derived xenograft (PDX) models generated from enrolled patients, and Class 2 & 3 BRAF mutant cell lines, we discovered MAPK-dependent and independent mechanisms of resistance to BRAF/MEK inhibition. These mechanisms included the acquisition of new mutations in NRAS, MAP2K1, RAF1, and RB in ctDNA at the time of disease progression. CDK4/6 and SHP2 were identified as mediators of intrinsic resistance to BRAF/MEK inhibition in Class 2 & 3 BRAF mutant tumors. Therapeutic strategies combining CDK4/6 or SHP2 inhibitors with BRAF/MEK inhibitors were more effective than BRAF/MEK inhibitors alone in these cancers.

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