VCP 通过招募 USP2 来抑制 FASN 的泛素化和降解,从而促进自噬相关骨肉瘤的发展。

IF 8.1 1区 生物学 Q1 CELL BIOLOGY Cell Death & Disease Pub Date : 2024-11-03 DOI:10.1038/s41419-024-07168-6
Shijiang Wang, Jiangbo Nie, Haoxin Jiang, Anan Li, Nanshan Zhong, Weilai Tong, Geliang Yao, Alan Jiang, Xinsheng Xie, Yanxin Zhong, Zhiguo Shu, Jiaming Liu, Feng Yang, Zhili Liu
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We found that fatty acid synthase (FASN) was significantly increased in activated autophagy models of OS and promoted OS proliferation in an autophagy-dependent manner, as detected by LC3 double-labeled fluorescence confocal microscopy, western blotting, transmission electron microscopy (TEM), and cell functional experiments. Furthermore, co-immunoprecipitation combined with mass spectrometry (Co-IP/MS), ubiquitination modification, molecular docking, and protein truncation methods were used to identify FASN-interacting proteins and analyze their effects on OS. Valosin-containing protein (VCP) enhanced the FASN stability by recruiting ubiquitin specific peptidase-2 (USP2) to remove the K48-linked ubiquitin chains from FASN; domain 2 of VCP and the amino acid sequence () of USP2 were critical for their interactions. 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引用次数: 0

摘要

骨肉瘤(Osteosarcoma,OS)是一种侵袭性很强的恶性肿瘤,致残率和死亡率都很高,而自噬功能失调是癌症的一个关键因素。然而,调控OS自噬的分子机制仍不清楚。本研究旨在探索影响OS自噬的关键分子及其调控机制。我们通过LC3双标记荧光共聚焦显微镜、Western印迹、透射电子显微镜(TEM)和细胞功能实验发现,脂肪酸合成酶(FASN)在激活的OS自噬模型中显著增加,并以自噬依赖的方式促进OS增殖。此外,研究人员还采用了共免疫沉淀结合质谱法(Co-IP/MS)、泛素化修饰法、分子对接法和蛋白质截断法来鉴定与FASN相互作用的蛋白质,并分析它们对OS的影响。含缬氨酸蛋白(VCP)通过招募泛素特异性肽酶-2(USP2)从FASN上去除K48连接的泛素链来增强FASN的稳定性;VCP的结构域2和USP2的氨基酸序列()是它们相互作用的关键。功能增益和功能缺失实验表明,抑制FASN或USP2可减轻VCP过表达对OS细胞自噬的刺激作用以及体外和体内的恶性表型。值得注意的是,显微 CT 显示 VCP 会诱导裸鼠出现严重的骨质破坏,而 FASN 或 USP2 的下调会减轻这种破坏。总之,VCP 通过去泛素化作用招募 USP2 以稳定 FASN,从而激活自噬并促进 OS 的进展。VCP/USP2/FASN轴介导自噬调控,它的确定为了解OS的内在机制提供了重要见解,并为OS患者提供了潜在的诊断和治疗策略。
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VCP enhances autophagy-related osteosarcoma progression by recruiting USP2 to inhibit ubiquitination and degradation of FASN.

Osteosarcoma (OS) is a highly aggressive malignant tumor with a high rate of disability and mortality rates, and dysregulated autophagy is a crucial factor in cancer. However, the molecular mechanisms that regulate autophagy in OS remain unclear. This study aimed to explore key molecules that affect autophagy in OS and their regulatory mechanisms. We found that fatty acid synthase (FASN) was significantly increased in activated autophagy models of OS and promoted OS proliferation in an autophagy-dependent manner, as detected by LC3 double-labeled fluorescence confocal microscopy, western blotting, transmission electron microscopy (TEM), and cell functional experiments. Furthermore, co-immunoprecipitation combined with mass spectrometry (Co-IP/MS), ubiquitination modification, molecular docking, and protein truncation methods were used to identify FASN-interacting proteins and analyze their effects on OS. Valosin-containing protein (VCP) enhanced the FASN stability by recruiting ubiquitin specific peptidase-2 (USP2) to remove the K48-linked ubiquitin chains from FASN; domain 2 of VCP and the amino acid sequence () of USP2 were critical for their interactions. Gain- and loss-of-function experiments showed that the inhibition of FASN or USP2 attenuated the stimulatory effect of VCP overexpression on autophagy and the malignant phenotypes of OS cells in vitro and in vivo. Notably, micro-CT indicated that VCP induced severe bone destruction in nude mice, which was abrogated by FASN or USP2 downregulation. In summary, VCP recruits USP2 to stabilize FASN by deubiquitylation, thereby activating autophagy and promoting OS progression. The identification of the VCP/USP2/FASN axis, which mediates autophagy regulation, provides important insights into the underlying mechanisms of OS and offers potential diagnostic and therapeutic strategies for patients with OS.

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来源期刊
Cell Death & Disease
Cell Death & Disease CELL BIOLOGY-
CiteScore
15.10
自引率
2.20%
发文量
935
审稿时长
2 months
期刊介绍: Brought to readers by the editorial team of Cell Death & Differentiation, Cell Death & Disease is an online peer-reviewed journal specializing in translational cell death research. It covers a wide range of topics in experimental and internal medicine, including cancer, immunity, neuroscience, and now cancer metabolism. Cell Death & Disease seeks to encompass the breadth of translational implications of cell death, and topics of particular concentration will include, but are not limited to, the following: Experimental medicine Cancer Immunity Internal medicine Neuroscience Cancer metabolism
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