HSF4 promotes tumor progression of colorectal cancer by transactivating c-MET

癌基因 癌症研究 蛋白激酶B 转录因子 生物 结直肠癌 染色质免疫沉淀 肿瘤进展 细胞生长 癌症 下调和上调 信号转导 细胞周期 细胞生物学 基因表达 遗传学 发起人 基因
作者
Wenjing Zhang,Xuelian Zhang,Peng Cheng,Kelin Yue,Ming‐Jer Tang,Yan Li,Qiang Guo,Yu Zhang
出处
期刊:Molecular and Cellular Biochemistry [Springer Science+Business Media]
卷期号:478 (5): 1141-1150 被引量:10
标识
DOI:10.1007/s11010-022-04582-2
摘要

Heat shock factors (HSFs) are a family of transcription factors, composed of HSF1, HSF2, and HSF4, to regulate cell stress reaction for maintaining cellular homeostasis in response to adverse stimuli. Recent studies have disclosed the roles of HSF1 and HSF2 in modulating tumor development, including colorectal cancer (CRC). However, HSF4, which is closely associated with pathology of congenital cataracts, remains less studied in tumors. In this study, we aimed to describe the regulatory effects of HSF4 and underlying molecular mechanism in CRC progression. By bioinformatic analysis of TCGA database and TMA-IHC assay, we identified that the expression of HSF4 was significantly upregulated in CRCs compared with normal colonic tissues and was a prognostic factor of poor outcomes of CRC patients. Function assays, including CCK-8, colony formation, transwell assays, and xenografted mouse model, were employed to verify that HSF4 promoted cell growth, colony formation, invasion of CRC cells in vitro, and tumor growth in vivo as a potential oncogenic factor. Mechanistically, results of Chromatin immunoprecipitation (ChIP) and immunoblotting assays revealed that HSF4 associated directly to MET promoter to enhance expression of c-MET, a well-known oncogene in multiple cancers, thus fueling the activity of downstream ERK1/2 and AKT signaling pathways. In further rescue experiments, restoration of c-MET expression abolished inhibitory cell growth and invasion induced by downregulated HSF4 expression. To sum up, our findings describe a crucial role of HSF4 in CRC progression by enhancing activity of c-MET and downstream ERK1/2 and AKT signaling pathways, and highlight HSF4 as a potential therapeutic target for anti-CRC treatment.

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