Palmitic acid activates c-Myc via dual palmitoylation-dependent pathways to promote colon cancer
Du Wenxin, Zhang Jianing, Wang Yuexin, Li Minjun, Cao Ji, Yang Bo, He Qiaojun, Shao Xuejing, Ying Meidan
Journal:Cell Discovery
IF:12.5
DOI:10.1038/s41421-026-00869-6
PMID:41698889
Published:2026-02-17
research field:肿瘤学蛋白质翻译后修饰脂质代谢炎症性肠病相关癌变分子肿瘤学代谢调控肿瘤发生
Abstract
c-Myc is broadly hyperactivated in colon cancer, yet the mechanisms sustaining its transcriptional activation remain elusive. Here we identify palmitic acid (PA) as a metabolite cue that activates c-Myc via dual palmitoylation-dependent pathways operating across tumor initiation and progression. In colitis models, PA-rich diets exacerbate inflammation and enrich MYC target programs without increasing Myc mRNA. Mechanistically, the palmitoyltransferase ZDHHC9, upregulated by IL-1β, directly palmitoylates c-Myc at C171, enhancing c-Myc/MAX dimerization and transcriptional activity; genetic or pharmacologic inhibition diminishes c-Myc palmitoylation and target gene expression. During tumor progression, c-Myc transactivates FATP2, increasing PA uptake and reinforcing c-Myc palmitoylation, thereby establishing a feedforward loop and metabolic addiction to PA. Functionally, PA accelerates xenograft growth, whereas targeting ZDHHC9 and FATP2 inhibits c-Myc function to suppress tumor burden. These findings uncover metabolite-driven control of c-Myc through palmitoylation and highlight ZDHHC9/FATP2 as actionable vulnerabilities for colon cancer treatment.
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