RSL1D1 knockdown induces ferroptosis and mediates ferrous iron accumulation in senescent cells by inhibiting FTH1 mRNA stability

基因敲除 衰老 下调和上调 细胞生物学 转铁蛋白受体 癌细胞 细胞生长 生物 细胞凋亡 化学 癌症研究 细胞 癌症 生物化学 基因 遗传学
作者
Jin Yu,Zhao Lei,Shuhao Wang,Xianglan Zhang,Quan Ji-shu,Zhenhua Lin,Junjie Piao
出处
期刊:Carcinogenesis [Oxford University Press]
卷期号:44 (2): 129-142 被引量:6
标识
DOI:10.1093/carcin/bgad012
摘要

Abstract Iron metabolism plays an important role in maintaining cellular multiple biological functions. Dysfunction of iron homeostasis-maintaining systems was observed in many diseases, including cancer. Ribosomal L1 domain-containing 1 (RSL1D1) is an RNA-binding protein involved in multiple cellular processes, including cellular senescence, proliferation and apoptosis. However, the regulatory mechanism of RSL1D1 underlying cellular senescence and its biological process in colorectal cancer (CRC) is not clearly understood. Here, we report that RSL1D1 expression is downregulated by ubiquitin-mediated proteolysis in senescence-like CRC cells. RSL1D1, as an anti-senescence factor, is frequently upregulated in CRC, and elevated RSL1D1 prevents CRC cells from senescence-like phenotype, and correlated with poor prognosis of CRC patients. Knockdown of RSL1D1 inhibited cell proliferation, and induced cell cycle arrest and apoptosis. Notably, RSL1D1 plays important roles in regulating iron metabolism of cancer cells. In RSL1D1-knockdown cells, FTH1 expression was significantly decreased, while transferrin receptor 1 expression was increased, leading to intracellular ferrous iron accumulation, which subsequently promoted ferroptosis, indicated by the increased malondialdehyde and decreased GPX4 levels. Mechanically, RSL1D1 directly bounds with 3ʹ untranslated region of FTH1 and subsequently promoted the mRNA stability. Moreover, RSL1D1-mediated downregulation of FTH1 was also observed in H2O2-induced senescence-like cancer cells. Taken together, these findings support RSL1D1 plays an important role in regulating intracellular iron homeostasis in CRC, and suggest that RSL1D1 could be a potential therapeutic target for cancer treatment.
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