SMAD4 Palmitoylation Drives a Metabolic-Transcriptional Circuit to Promote Tumorigenesis and Confers Radiosensitivity in Pancreatic Cancer
Yang Wang, Shan Zhang, Junping Bai, Xiaobing Li, Yi Han, Min Ji, Chongyi Jiang, Xiaobei Ge, Tianyu Yu, Yongying Hou, Jun Zhang, Wangting Li, Yiran Song, Jiaying Cai, Yingqun Zhou, Liwei An, Feng Wang
Journal:Advanced Science
IF:14.1
DOI:10.1002/advs.202519791
PMID:41885390
Published:2026-03-26
research field:翻译后修饰代谢癌症生物学分子肿瘤学细胞信号转导
Abstract
Pancreatic ductal adenocarcinoma (PDAC) is characterized by frequent SMAD4 inactivation and profound lipid metabolic rewiring, yet how these processes intersect especially in SMAD4 + PDAC remains elusive. Here, we identify palmitoylation as a previously unrecognized post-translational modification of SMAD4. Combining biochemical labeling, mutagenesis, and functional assays, we demonstrate that SMAD4 is palmitoylated at cysteine 363 by the acyltransferase ZDHHC22 and depalmitoylated by APT2. Mechanistically, palmitoylation enhances SMAD4 protein stability, facilitates the interaction of SMAD4 with importins, and amplifies subsequent transcriptional output, leading to direct upregulation of the key fatty acid biosynthetic enzyme FASN. Consequently, elevated palmitic acid levels in turn reinforce SMAD4 palmitoylation, establishing a self-amplifying SMAD4 palmitoylation–FASN–palmitic acid positive feedback loop that drives PDAC tumor growth. Intriguingly, SMAD4 palmitoylation sensitizes PDAC cells to radiotherapy both in vitro and in vivo, revealing a dual role between tumor progression and treatment responses. Notably, clinically relevant SMAD4 mutants (R361C and R361H) exhibit enhanced palmitoylation, underscoring the pathological relevance of this mechanism for tumorigenesis. Collectively, these findings unveil a metabolic-transcriptional circuit wherein palmitoylation bridges lipid metabolism with SMAD4-driven oncogenesis, and posit SMAD4 palmitoylation as a therapeutic vulnerability in pancreatic cancer.
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