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Global crotonylome reveals hypoxia-mediated lamin A crotonylation regulated by HDAC6 in liver cancer

Dan Zhang, Jing Tang, Yunhong Xu, Xiaoju Huang, Yilin Wang, Xin Jin, Gang Wu, Pian Liu

2022Cell Death and Disease52 citationsDOIOpen Access PDF

Abstract

Lysine crotonylation is a recently discovered post-translation modification involved in transcription regulation, cell signal transduction, and other processes. Scientists have identified several crotonylases and decrotonylases of histones, including P300/CBP, HDACs, and SIRTs. However, the regulation of non-histone protein crotonylation remains unclear. In the current study, we verified that crotonylation was upregulated in hypoxia and promoted liver cancer cell growth. We performed TMT-labeled quantitative lysine crotonylome analysis in 12 pairs of hepatocellular carcinoma and adjacent liver tissue and identified 3,793 lysine crotonylation sites in 1,428 proteins. We showed that crotonylation of lamin A at the site of K265/270 maintains its subcellular position, promotes liver cancer cell proliferation, and prevents cellular senescence. Our data indicate that HDAC6 is the decrotonylase of lamin A and downregulated in response to hypoxia, resulting in lamin A K265/270cr. Taken together, our study reveals the lamin A crotonylation in liver cancer progression and fills the research gap in non-histone protein crotonylation function.

Topics & Concepts

LaminBiologyHistoneLiver cancerCell biologyNuclear laminaTranscription factorNuclear proteinCancer researchBiochemistryHepatocellular carcinomaGeneNucleusUbiquitin and proteasome pathwaysNuclear Structure and FunctionGenomics and Chromatin Dynamics
Global crotonylome reveals hypoxia-mediated lamin A crotonylation regulated by HDAC6 in liver cancer | Litcius