猪 RNF5 通过介导 ABHD16A 的降解来积极调节 IFITM1 的抗病毒活性。

IF 4 2区 医学 Q2 VIROLOGY Journal of Virology Pub Date : 2024-11-27 DOI:10.1128/jvi.01277-24
Xuemeng Shi, Lingyi Shen, Shuaiwu Chen, Mingyang Liu, Jingyi Wang, Xin Wen, Wei Liu, Lin Mao, Yunyun Ding, Li Yu, Jun Xu
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引用次数: 0

摘要

干扰素诱导跨膜(IFITM)蛋白是一种广谱抗病毒因子,可赋予细胞抵抗病毒入侵的能力。最近发现的含α/β-水解酶结构域的 16A(ABHD16A)是一种新型去棕榈酰化酶,它能通过催化去棕榈酰化反应抑制 IFITM 蛋白的抗病毒活性;这种模式可能对宿主避免过度免疫反应造成的损害至关重要。然而,宿主细胞如何调控 ABHD16A 的活性在很大程度上仍是个谜。在本研究中,我们进行了基于 AlphaFold2 的蛋白-蛋白相互作用预测,发现猪 E3 泛素连接酶环指蛋白 5(sRNF5)是与 sABHD16A 有相互作用的蛋白,并负向调控 sABHD16A 的稳定性。我们利用免疫荧光和共免疫沉淀技术发现,sRNF5靶向sABHD16A,通过蛋白酶体途径在K3和K452残基上泛素化和降解。此外,sABHD16A 催化了 sIFITM1 的去棕榈酰化,阻碍了 sIFITM1 的抗病毒功能,而 sRNF5 则引起了 sABHD16A 的泛素化,减弱了对 sIFITM1 的去棕榈酰化作用,从而恢复了 sIFITM1 的抗病毒活性。总之,我们的研究结果首次证明了 sRNF5 通过介导 sABHD16A 的降解来正向调节 sIFITM1 的抗病毒功能,从而拓展了 RNF5 和 ABHD16A 在免疫调节中的生物学功能。此外,我们的研究还强调了 RNF5、ABHD16A 和 IFITM 之间精心设计的相互作用,这种相互作用平衡了抗病毒免疫反应,避免了过度免疫反应引起的紊乱:干扰素和干扰素刺激基因在宿主抵御病毒感染的过程中发挥着重要的保护作用。IFITM家族蛋白可被干扰素强烈诱导,已被确认为防止各种病毒入侵的第一道防线。进一步的分析表明,IFITM 的抗病毒活性取决于棕榈酰化/去棕榈酰化。最近,我们报道了 ABHD16A 作为 IFITMs 的第一个去棕榈酰化酶,负向调节 IFITMs 的抗病毒活性。然而,这提出了一个关键问题:ABHD16A 是如何被调控并保持平衡的?在这里,我们发现猪 RNF5 通过泛素化修饰 sABHD16A 并引导 sABHD16A 降解,从而减轻了 sIFITM1 对病毒入侵的负调控。因此,sRNF5-sABHD16A 之间的相互作用在调节免疫反应和避免干扰素水平升高引起的紊乱中发挥着不可或缺的作用。总之,我们的研究结果拓展了 IFITMs 上游微妙的调控分子机制,为病毒性疾病的治疗提供了潜在靶点。
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Swine RNF5 positively regulates the antiviral activity of IFITM1 by mediating the degradation of ABHD16A.

Interferon-inducible transmembrane (IFITM) proteins are broad-spectrum antiviral factors that confer cellular resistance to virus invasion. α/β-Hydrolase domain-containing 16A (ABHD16A) has recently been identified as a novel depalmitoylase that can inhibit the antiviral activity of IFITM proteins by catalyzing the depalmitoyl reaction; this pattern may be crucial for the host to avoid damage caused by excessive immune response. However, it remains largely elusive about how host cells regulate the activity of ABHD16A. In the present study, we performed the AlphaFold2-based protein-protein interaction prediction and identified swine E3 ubiquitin ligase ring finger protein 5 (sRNF5) as a sABHD16A-interacting protein and negatively regulated the stability of sABHD16A. Using immunofluorescence and co-immunoprecipitation techniques, we uncovered that sRNF5 targeted sABHD16A for ubiquitination and degradation via the proteasomal pathway at residues K3 and K452. Furthermore, sABHD16A catalyzed the depalmitoylation of sIFITM1, which obstructed the antiviral function of sIFITM1, while sRNF5 caused ubiquitination of sABHD16A, which attenuated the depalmitoylation effect on sIFITM1, and consequently restored the antiviral activity of sIFITM1. Collectively, our findings demonstrate for the first time that sRNF5 positively regulates the antiviral function of sIFITM1 by mediating the degradation of sABHD16A, which expands the biological functions of RNF5 and ABHD16A in immune regulation. Moreover, our work highlights the well-designed interplay between RNF5, ABHD16A, and IFITM, which balances antiviral immune responses to avoid the disorders induced by excessive immune response.

Importance: Interferon and interferon-stimulated genes play significant and protective roles in the host's defense against viral infection. IFITM family proteins, which can be strongly induced by interferon, have been identified as the first line of defense to prevent invasion of various viruses. Further analysis reveals the antiviral activity of IFITMs depends on palmitoylation/depalmitoylation. Recently, we reported that ABHD16A, as the first depalmitoylase of IFITMs, negatively regulated the antiviral activity of IFITMs. However, these raise crucial questions: how ABHD16A is regulated and remained in a balanced manner? Here, we show that swine RNF5 attenuates the negative regulation of sIFITM1 against virus invasion by modifying sABHD16A through ubiquitination and guiding sABHD16A for degradation. Thus, sRNF5-sABHD16A interplay plays an indispensable role in regulating immune response and avoiding the disorders induced by elevated interferon levels. Overall, our findings extend the upstream subtle regulatory molecular mechanism of IFITMs and provide potential targets for viral disease therapy.

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来源期刊
Journal of Virology
Journal of Virology 医学-病毒学
CiteScore
10.10
自引率
7.40%
发文量
906
审稿时长
1 months
期刊介绍: Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.
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