NEDD4 家族泛素连接酶 AIP4 与 Alix 相互作用,以不依赖于 Alix 泛素化的方式使 HBV 裸盖蛋白外排

IF 6.7 1区 医学 Q1 Immunology and Microbiology PLoS Pathogens Pub Date : 2024-09-11 DOI:10.1371/journal.ppat.1012485
Sheng Shen, Dawei Cai, Hongyan Liang, Ge Zeng, Wendong Liu, Ran Yan, Xiaoyang Yu, Hu Zhang, Shi Liu, Wanying Li, Rui Deng, Xingyu Lu, Yuanjie Liu, Jian Sun, Haitao Guo
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HBV capsid/core protein has two highly conserved Lysine residues (K7/K96) that potentially undergo various types of posttranslational modifications for subsequent biological events. Mutagenesis study revealed that the K96 residue is critical for naked capsid egress, and the intracellular egress-competent capsids are associated with ubiquitinated host proteins. Consistent with a previous report, the ESCRT-III-binding protein Alix and its Bro1 domain are required for naked capsid secretion through binding to intracellular capsid, and we further found that the ubiquitinated Alix binds to wild type capsid but not K96R mutant. Moreover, screening of NEDD4 E3 ubiquitin ligase family members revealed that AIP4 stimulates the release of naked capsid, which relies on AIP4 protein integrity and E3 ligase activity. We further demonstrated that AIP4 interacts with Alix and promotes its ubiquitination, and AIP4 is essential for Alix-mediated naked capsid secretion. 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引用次数: 0

摘要

乙型肝炎病毒(HBV)利用运输所需的内体分拣复合物(ESCRT)/多泡体(MVB)途径进行病毒出芽。除了包膜病毒外,HBV 复制细胞还能独立于整体 ESCRT 机制非lytically 地释放非包膜(裸体)病毒盖,但确切的分泌机制仍然难以捉摸。在此,我们提供了有关裸盖体的存在、特征以及病毒和宿主对裸盖体排出的调控的更多详细信息。HBV 荚膜/核心蛋白有两个高度保守的赖氨酸残基(K7/K96),这两个残基在随后的生物学事件中可能会发生各种类型的翻译后修饰。突变研究发现,K96残基对裸噬菌体的排出至关重要,细胞内有能力排出的噬菌体与泛素化的宿主蛋白相关。与之前的报道一致,ESCRT-III结合蛋白Alix及其Bro1结构域通过与细胞内的噬菌体结合,是裸噬菌体分泌所必需的,而且我们进一步发现泛素化的Alix能与野生型噬菌体结合,而不能与K96R突变体结合。此外,通过对 NEDD4 E3 泛素连接酶家族成员的筛选发现,AIP4 能刺激裸盖蛋白的释放,而裸盖蛋白的释放依赖于 AIP4 蛋白的完整性和 E3 连接酶的活性。我们进一步证实,AIP4 与 Alix 相互作用并促进其泛素化,AIP4 对 Alix 介导的裸盖蛋白分泌至关重要。然而,Alix的Bro1结构域是非泛素化的,这表明AIP4诱导的裸盖蛋白分泌并不绝对需要Alix泛素化。综上所述,我们的研究为HBV裸盖蛋白在病毒生命周期中的排出机制提供了新的启示。
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NEDD4 family ubiquitin ligase AIP4 interacts with Alix to enable HBV naked capsid egress in an Alix ubiquitination-independent manner
Hepatitis B virus (HBV) exploits the endosomal sorting complexes required for transport (ESCRT)/multivesicular body (MVB) pathway for virion budding. In addition to enveloped virions, HBV-replicating cells nonlytically release non-enveloped (naked) capsids independent of the integral ESCRT machinery, but the exact secretory mechanism remains elusive. Here, we provide more detailed information about the existence and characteristics of naked capsid, as well as the viral and host regulations of naked capsid egress. HBV capsid/core protein has two highly conserved Lysine residues (K7/K96) that potentially undergo various types of posttranslational modifications for subsequent biological events. Mutagenesis study revealed that the K96 residue is critical for naked capsid egress, and the intracellular egress-competent capsids are associated with ubiquitinated host proteins. Consistent with a previous report, the ESCRT-III-binding protein Alix and its Bro1 domain are required for naked capsid secretion through binding to intracellular capsid, and we further found that the ubiquitinated Alix binds to wild type capsid but not K96R mutant. Moreover, screening of NEDD4 E3 ubiquitin ligase family members revealed that AIP4 stimulates the release of naked capsid, which relies on AIP4 protein integrity and E3 ligase activity. We further demonstrated that AIP4 interacts with Alix and promotes its ubiquitination, and AIP4 is essential for Alix-mediated naked capsid secretion. However, the Bro1 domain of Alix is non-ubiquitinated, indicating that Alix ubiquitination is not absolutely required for AIP4-induced naked capsid secretion. Taken together, our study sheds new light on the mechanism of HBV naked capsid egress in viral life cycle.
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来源期刊
PLoS Pathogens
PLoS Pathogens 生物-病毒学
CiteScore
11.40
自引率
3.00%
发文量
598
审稿时长
2 months
期刊介绍: Bacteria, fungi, parasites, prions and viruses cause a plethora of diseases that have important medical, agricultural, and economic consequences. Moreover, the study of microbes continues to provide novel insights into such fundamental processes as the molecular basis of cellular and organismal function.
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