TRIM5α是一种小泛素样修饰蛋白（SUMO）底物。

TRIM5α is a SUMO substrate.

作者信息

Dutrieux Jacques, Portilho Débora M, Arhel Nathalie J, Hazan Uriel, Nisole Sébastien

机构信息

INSERM UMR-S 1124, Université Paris Descartes, 45 rue des Saints-Pères, 75006, Paris, France.

INSERM U941, University Institute of Hematology, Saint-Louis Hospital, 75010, Paris, France.

出版信息

Retrovirology. 2015 Mar 24;12:28. doi: 10.1186/s12977-015-0155-7.

DOI:10.1186/s12977-015-0155-7

PMID:25880753

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4376147/

Abstract

BACKGROUND

The TRIM5α restriction factor interferes with retroviral infections by inhibiting an early step of viral replication. TRIM5α activity was recently proposed to be regulated by the SUMO machinery and one SUMO consensus conjugation site as well as three putative SUMO interacting motifs (SIMs) were identified within TRIM5α sequence. Whereas mutation of the SIM sequences was found to abolish TRIM5α antiviral activity, mutation of the consensus SUMO conjugation site did not affect its restriction capacity, although this putative site has never been shown to be actually a SUMO substrate.

FINDINGS

Here we further demonstrate that TRIM5α relies on the SUMO machinery to promote restriction, since SUMO1 overexpression enhances TRIM5α-mediated retroviral inhibition whereas knockdown of SUMO1 or E2 SUMO conjugating enzyme Ubc9 prevents restriction. Furthermore, we show for the first time that TRIM5α is SUMOylated both in vitro and in cellulo and that Lysine 10 is the main SUMOylation site. Mutation of the consensus SUMO conjugation motif in position 10 abrogated SUMOylation at this position, but did not disrupt TRIM5α antiviral activity.

CONCLUSIONS

Altogether, our results confirm that the SUMO machinery is involved in TRIM5α-mediated retroviral restriction, and demonstrate that TRIM5α is a SUMO 1 and SUMO 2 substrate. The inability to abrogate TRIM5α antiviral activity by mutating its main SUMO conjugation motif supports the notion that non-covalent interaction with SUMO or SUMOylated proteins rather than TRIM5α direct SUMOylation is required.

摘要

背景

TRIM5α限制因子通过抑制病毒复制的早期步骤来干扰逆转录病毒感染。最近有人提出TRIM5α的活性受SUMO机制调控，并且在TRIM5α序列中鉴定出一个SUMO共有结合位点以及三个假定的SUMO相互作用基序（SIMs）。虽然发现SIM序列的突变会消除TRIM5α的抗病毒活性，但共有SUMO结合位点的突变并不影响其限制能力，尽管这个假定位点从未被证明实际上是一个SUMO底物。

研究结果

在此我们进一步证明TRIM5α依赖SUMO机制来促进限制作用，因为SUMO1的过表达增强了TRIM5α介导的逆转录病毒抑制作用，而SUMO1或E2 SUMO结合酶Ubc9的敲低则阻止了这种限制作用。此外，我们首次表明TRIM5α在体外和细胞内均被SUMO化，并且赖氨酸10是主要的SUMO化位点。第10位共有SUMO结合基序的突变消除了该位点的SUMO化，但并未破坏TRIM5α的抗病毒活性。

结论

总之，我们的结果证实SUMO机制参与了TRIM5α介导的逆转录病毒限制作用，并证明TRIM5α是SUMO 1和SUMO 2的底物。通过突变其主要SUMO结合基序无法消除TRIM5α的抗病毒活性，这支持了一种观点，即需要与SUMO或SUMO化蛋白进行非共价相互作用，而不是TRIM5α直接进行SUMO化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0f08/4376147/1bc6f24b3cf5/12977_2015_155_Fig1_HTML.jpg

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TRIM5α是一种小泛素样修饰蛋白（SUMO）底物。

TRIM5α is a SUMO substrate.

作者信息

机构信息

出版信息

BACKGROUND

FINDINGS

CONCLUSIONS

背景

研究结果

结论

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