MARCH2-mediated Lys63-linked polyubiquitination promotes metastasis by modulating the catalytic activity of TGF-β type I receptor.
Kun Tae, Sang Woo Cho, Seonjeong Lee, Dahyoon Heo, Hyo Sun Cha, Da Yeon Lee, Eunjeong Oh, Minhyeong Choi, Donghyuk Shin, Siyoung Yang, Cheolju Lee, Cheol Yong Choi
Abstract
Open AccessThe TGF-β signaling pathway is initiated when the type II receptor phosphorylates the type I receptor (ALK5) upon TGF-β binding. While E3 ubiquitin ligases regulate TGF-β receptor degradation, their role in modulating receptor catalytic activity via ubiquitination remains largely unexplored. Here, we demonstrate that the E3 ubiquitin ligase MARCH2 enhances ALK5 catalytic activity by conjugating K63-linked ubiquitin chains to lysines 342/343 (K342/343), primarily at endosomes following TGF-β-induced endocytosis. Mutations of ALK5 at K342/343 (K342/343R) abolish its catalytic activity for SMAD2 phosphorylation, leading to impaired TGF-β responses and reduced cell migration in A549 cells. In a mouse model, expression of the ALK5 K342/343 R mutant significantly decreases lung metastasis compared to wild-type ALK5. TCGA analysis further revealed a strong positive correlation between MARCH2 expression and TGF-β target gene expression. Collectively, these findings establish ALK5 ubiquitination at K342/343 by MARCH2 as a crucial regulatory mechanism for ALK5 catalytic activity, TGF-β signaling, and metastasis.