MOGAT3-Mediated DAG Accumulation Drives Acquired Resistance to Anti-BRAF/EGFR Therapy in BRAFV600E-Mutant Metastatic Colorectal Cancer.

The Journal of Clinical Investigation Pub Date : 2024-10-22 DOI:10.1172/jci182217

Jiawei Wang,Huogang Wang,Wei Zhou,Xin Luo,Huijuan Wang,Qing Meng,Jiaxin Chen,Xiaoyu Chen,Yinqiang Liu,David W Chan,Zhenyu Ju,Zhangfa Song

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Abstract

BRAFV600E-mutant metastatic colorectal cancer (mCRC) is associated with poor prognosis. The combination of anti-BRAF/EGFR (encorafenib/cetuximab) treatment for patients with BRAFV600E-mutant mCRC improved clinical benefits; unfortunately, inevitable acquired resistance limits the treatment outcome, and the mechanism has not been validated. Here, we discovered that monoacylglycerol O-Acyltransferase 3 (MOGAT3) mediated diacylglycerol (DAG) accumulation contributed to acquired resistance to encorafenib/cetuximab by dissecting BRAFV600E-mutant mCRC patient-derived xenograft (PDX) model exposed to encorafenib/cetuximab administration. Mechanistically, upregulated MOGAT3 promotes DAG synthesis and reduces fatty acid oxidation (FAO)-promoting DAG accumulation and activating PKCα-CRAF-MEK-ERK, driving acquired resistance. Resistance-induced hypoxia promotes MOGAT3 transcriptional elevation; simultaneously, MOGAT3-mediated DAG accumulation increases HIF1A expression in translation level through PKCα-CRAF-eIF4E activation, strengthening the resistance status. Intriguingly, reducing intratumoral DAG by fenofibrate or Pf-06471553 restores the antitumor efficacy of encorafenib/cetuximab on resistant BRAFV600E-mutant mCRC, interrupted PKCα-CRAF-MEK-ERK signaling. These findings reveal the critical metabolite DAG as a modulator of encorafenib/cetuximab efficacy in BRAFV600E-mutant mCRC, suggesting that fenofibrate may prove beneficial for resistant BRAFV600E-mutant mCRC patients.

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MOGAT3介导的DAG累积驱动BRAFV600E突变转移性结直肠癌对抗BRAF/EGFR疗法的获得性抗性。

BRAFV600E突变的转移性结直肠癌（mCRC）预后较差。对BRAFV600E突变的mCRC患者进行抗BRAF/EGFR（安戈非尼/西妥昔单抗）联合治疗可提高临床疗效；但遗憾的是，不可避免的获得性耐药限制了治疗效果，其机制尚未得到验证。在这里，我们通过剖析暴露于安戈非尼/西妥昔单抗治疗的BRAFV600E突变型mCRC患者异种移植（PDX）模型，发现单酰基甘油O-酰基转移酶3（MOGAT3）介导的二酰基甘油（DAG）积累导致了对安戈非尼/西妥昔单抗的获得性耐药。从机理上讲，上调的MOGAT3促进了DAG的合成并减少了脂肪酸氧化（FAO）--促进了DAG的积累并激活了PKCα-CRAF-MEK-ERK，从而推动了获得性耐药性的产生。耐药性诱导的低氧促进了 MOGAT3 的转录升高；同时，MOGAT3 介导的 DAG 积累通过 PKCα-CRAF-eIF4E 激活，在翻译水平上增加了 HIF1A 的表达，从而加强了耐药性状态。有趣的是，通过非诺贝特或 Pf-06471553 减少瘤内 DAG 可恢复安戈非尼/西妥昔单抗对耐药 BRAFV600E 突变 mCRC 的抗肿瘤疗效，从而中断 PKCα-CRAF-MEK-ERK 信号传导。这些发现揭示了关键代谢物DAG是安戈非尼/西妥昔单抗对BRAFV600E突变型mCRC疗效的调节剂，表明非诺贝特可能对耐药的BRAFV600E突变型mCRC患者有益。

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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The Journal of Clinical Investigation

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