人类逆转录病毒衣壳亚结构域对Gag-Gag寡聚化、病毒形态和病毒粒子生物发生的不同贡献
Disparate Contributions of Human Retrovirus Capsid Subdomains to Gag-Gag Oligomerization, Virus Morphology, and Particle Biogenesis.
作者信息
Martin Jessica L, Mendonça Luiza M, Angert Isaac, Mueller Joachim D, Zhang Wei, Mansky Louis M
机构信息
Institute for Molecular Virology, University of Minnesota, Minneapolis, Minnesota, USA.
Pharmacology Graduate Program, University of Minnesota, Minneapolis, Minnesota, USA.
出版信息
J Virol. 2017 Jun 26;91(14). doi: 10.1128/JVI.00298-17. Print 2017 Jul 15.
The capsid domain (CA) of the retroviral Gag protein is a primary determinant of Gag oligomerization, which is a critical step for immature Gag lattice formation and virus particle budding. Although the human immunodeficiency virus type 1 (HIV-1) CA carboxy-terminal domain (CTD) is essential for CA-CA interactions, the CA CTD has been suggested to be largely dispensable for human T-cell leukemia virus type 1 (HTLV-1) particle biogenesis. To more clearly define the roles of the HTLV-1 CA amino-terminal domain (NTD) and CA CTD in particle biogenesis, we generated and analyzed a panel of Gag proteins with chimeric HIV-1/HTLV-1 CA domains. Subcellular distribution and protein expression levels indicated that Gag proteins with a chimeric HIV-1 CA NTD/HTLV-1 CA CTD did not result in Gag oligomerization regardless of the parent Gag background. Furthermore, chimeric Gag proteins with the HTLV-1 CA NTD produced particles phenotypically similar to HTLV-1 immature particles, highlighting the importance of the HTLV-1 CA NTD in HTLV-1 immature particle morphology. Taken together, these observations support the conclusion that the HTLV-1 CA NTD can functionally replace the HIV-1 CA CTD, but the HIV-1 CA NTD cannot replace the HTLV-1 CA CTD, indicating that the HTLV-1 CA subdomains provide distinct contributions to Gag-Gag oligomerization, particle morphology, and biogenesis. Furthermore, we have shown for the first time that HIV-1 and HTLV-1 Gag domains outside the CA (e.g., matrix and nucleocapsid) impact Gag oligomerization as well as immature particle size and morphology. A key aspect in virus replication is virus particle assembly, which is a poorly understood process for most viruses. For retroviruses, the Gag structural protein is the primary driver of virus particle biogenesis, and the CA CTD is the primary determinant of Gag-Gag interactions for HIV-1. In this study, the HTLV-1 capsid amino-terminal domain was found to provide distinct contributions to Gag-Gag oligomerization, particle morphology, and biogenesis. This study provides information that will aid efforts for discovery of therapeutic targets for intervention.
逆转录病毒Gag蛋白的衣壳结构域(CA)是Gag寡聚化的主要决定因素,而Gag寡聚化是未成熟Gag晶格形成和病毒粒子出芽的关键步骤。虽然人类免疫缺陷病毒1型(HIV-1)的CA羧基末端结构域(CTD)对于CA-CA相互作用至关重要,但有人提出CA CTD对于人类T细胞白血病病毒1型(HTLV-1)的病毒粒子生物发生在很大程度上是可有可无的。为了更清楚地界定HTLV-1的CA氨基末端结构域(NTD)和CA CTD在病毒粒子生物发生中的作用,我们构建并分析了一组具有嵌合HIV-1/HTLV-1 CA结构域的Gag蛋白。亚细胞分布和蛋白质表达水平表明,无论亲本Gag背景如何,具有嵌合HIV-1 CA NTD/HTLV-1 CA CTD的Gag蛋白都不会导致Gag寡聚化。此外,具有HTLV-1 CA NTD的嵌合Gag蛋白产生的病毒粒子在表型上与HTLV-1未成熟病毒粒子相似,突出了HTLV-1 CA NTD在HTLV-1未成熟病毒粒子形态形成中的重要性。综上所述,这些观察结果支持以下结论:HTLV-1的CA NTD在功能上可以替代HIV-1的CA CTD,但HIV-1的CA NTD不能替代HTLV-1的CA CTD,这表明HTLV-1的CA亚结构域对Gag-Gag寡聚化、病毒粒子形态和生物发生有不同的贡献。此外,我们首次表明,CA之外的HIV-1和HTLV-1 Gag结构域(如基质和核衣壳)会影响Gag寡聚化以及未成熟病毒粒子的大小和形态。病毒复制的一个关键方面是病毒粒子组装,这对于大多数病毒来说是一个了解甚少的过程。对于逆转录病毒而言,Gag结构蛋白是病毒粒子生物发生的主要驱动因素,而CA CTD是HIV-1中Gag-Gag相互作用的主要决定因素。在本研究中,发现HTLV-1衣壳氨基末端结构域对Gag-Gag寡聚化、病毒粒子形态和生物发生有不同的贡献。本研究提供的信息将有助于为发现干预治疗靶点的努力提供帮助。
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