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HMGB1的多聚ADP核糖基化通过自噬调节TNFSF10/TRAIL抗性。

Poly-ADP-ribosylation of HMGB1 regulates TNFSF10/TRAIL resistance through autophagy.

作者信息

Yang Minghua, Liu Liying, Xie Min, Sun Xiaofang, Yu Yan, Kang Rui, Yang Liangchun, Zhu Shan, Cao Lizhi, Tang Daolin

机构信息

a Department of Pediatrics; Xiangya Hospital ; Central South University ; Changsha , Hunan China.

出版信息

Autophagy. 2015;11(2):214-24. doi: 10.4161/15548627.2014.994400.

DOI:10.4161/15548627.2014.994400
PMID:25607248
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4502776/
Abstract

Both apoptosis ("self-killing") and autophagy ("self-eating") are evolutionarily conserved processes, and their crosstalk influences anticancer drug sensitivity and cell death. However, the underlying mechanism remains unclear. Here, we demonstrated that HMGB1 (high mobility group box 1), normally a nuclear protein, is a crucial regulator of TNFSF10/TRAIL (tumor necrosis factor [ligand] superfamily, member 10)-induced cancer cell death. Activation of PARP1 (poly [ADP-ribose] polymerase 1) was required for TNFSF10-induced ADP-ribosylation of HMGB1 in cancer cells. Moreover, pharmacological inhibition of PARP1 activity or knockdown of PARP1 gene expression significantly inhibited TNFSF10-induced HMGB1 cytoplasmic translocation and subsequent HMGB1-BECN1 complex formation. Furthermore, suppression of the PARP1-HMGB1 pathway diminished autophagy, increased apoptosis, and enhanced the anticancer activity of TNFSF10 in vitro and in a subcutaneous tumor model. These results indicate that PARP1 acts as a prominent upstream regulator of HMGB1-mediated autophagy and maintains a homeostatic balance between apoptosis and autophagy, which provides new insight into the mechanism of TNFSF10 resistance.

摘要

细胞凋亡(“自我杀伤”)和自噬(“自我吞噬”)都是进化上保守的过程,它们之间的相互作用影响抗癌药物敏感性和细胞死亡。然而,其潜在机制仍不清楚。在此,我们证明了通常作为核蛋白的HMGB1(高迁移率族蛋白B1)是TNFSF10/TRAIL(肿瘤坏死因子[配体]超家族成员10)诱导癌细胞死亡的关键调节因子。癌细胞中TNFSF10诱导的HMGB1 ADP核糖基化需要PARP1(聚[ADP-核糖]聚合酶1)的激活。此外,PARP1活性的药理学抑制或PARP1基因表达的敲低显著抑制了TNFSF10诱导的HMGB1细胞质转位以及随后的HMGB1-BECN1复合物形成。此外,PARP1-HMGB1途径的抑制减少了自噬,增加了细胞凋亡,并增强了TNFSF10在体外和皮下肿瘤模型中的抗癌活性。这些结果表明,PARP1作为HMGB1介导的自噬的重要上游调节因子,维持细胞凋亡和自噬之间的稳态平衡,这为TNFSF10耐药机制提供了新的见解。

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