| Literature DB >> 31054974 |
Zhe Wang1, Xin Yang1, Cheng Liu2, Xin Li3, Buyu Zhang4, Bo Wang5, Yu Zhang1, Chen Song1, Tianzhuo Zhang1, Minghui Liu1, Boya Liu1, Mengmeng Ren1, Hongpeng Jiang5, Junhua Zou1, Xiaoyun Liu4, Hongquan Zhang2, Wei-Guo Zhu6, Yuxin Yin7, Zhang Zhang8, Wei Gu9, Jianyuan Luo10.
Abstract
Alternative pre-mRNA-splicing-induced post-transcriptional gene expression regulation is one of the pathways for tumors maintaining proliferation rates accompanying the malignant phenotype under stress. Here, we uncover a list of hyperacetylated proteins in the context of acutely reduced Acetyl-CoA levels under nutrient starvation. PHF5A, a component of U2 snRNPs, can be acetylated at lysine 29 in response to multiple cellular stresses, which is dependent on p300. PHF5A acetylation strengthens the interaction among U2 snRNPs and affects global pre-mRNA splicing pattern and extensive gene expression. PHF5A hyperacetylation-induced alternative splicing stabilizes KDM3A mRNA and promotes its protein expression. Pathologically, PHF5A K29 hyperacetylation and KDM3A upregulation axis are correlated with poor prognosis of colon cancer. Our findings uncover a mechanism of an anti-stress pathway through which acetylation on PHF5A promotes the cancer cells' capacity for stress resistance and consequently contributes to colon carcinogenesis.Entities:
Keywords: HDAC6; KDM3A; PHF5A; RNA stability; acetylation; alternative splicing; cell proliferation; cellular stress; colorectal cancer; p300; spliceosome
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Year: 2019 PMID: 31054974 DOI: 10.1016/j.molcel.2019.04.009
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970