1型人类免疫缺陷病毒通过与整合酶蛋白相互作用利用细胞动力蛋白轻链1蛋白进行逆转录。
Human immunodeficiency virus type 1 employs the cellular dynein light chain 1 protein for reverse transcription through interaction with its integrase protein.
作者信息
Jayappa Kallesh Danappa, Ao Zhujun, Wang Xiaoxia, Mouland Andrew J, Shekhar Sudhanshu, Yang Xi, Yao Xiaojian
机构信息
Laboratory of Molecular Human Retrovirology, Department of Medical Microbiology, Faculty of Medicine, University of Manitoba, Winnipeg, Canada.
HIV-1 RNA Trafficking Laboratory, Lady Davis Institute at the Jewish General Hospital and McGill University, Montréal, Québec, Canada.
出版信息
J Virol. 2015 Apr;89(7):3497-511. doi: 10.1128/JVI.03347-14. Epub 2015 Jan 7.
UNLABELLED
In this study, we examined the requirement for host dynein adapter proteins such as dynein light chain 1 (DYNLL1), dynein light chain Tctex-type 1 (DYNLT1), and p150(Glued) in early steps of human immunodeficiency virus type 1 (HIV-1) replication. We found that the knockdown (KD) of DYNLL1, but not DYNLT1 or p150(Glued), resulted in significantly lower levels of HIV-1 reverse transcription in cells. Following an attempt to determine how DYNLL1 could impact HIV-1 reverse transcription, we detected the DYNLL1 interaction with HIV-1 integrase (IN) but not with capsid (CA), matrix (MA), or reverse transcriptase (RT) protein. Furthermore, by mutational analysis of putative DYNLL1 interaction motifs in IN, we identified the motifs (52)GQVD and (250)VIQD in IN as essential for DYNLL1 interaction. The DYNLL1 interaction-defective IN mutant HIV-1 (HIV-1IN(Q53A/Q252A)) exhibited impaired reverse transcription. Through further investigations, we have also detected relatively smaller amounts of particulate CA in DYNLL1-KD cells or in infections with HIV-1IN(Q53A/Q252A) mutant virus. Overall, our study demonstrates the novel interaction between HIV-1 IN and cellular DYNLL1 proteins and suggests the requirement of this virus-cell interaction for proper uncoating and efficient reverse transcription of HIV-1.
IMPORTANCE
Host cellular DYNLL1, DYNLT1, and p150(Glued) proteins have been implicated in the replication of several viruses. However, their roles in HIV-1 replication have not been investigated. For the first time, we demonstrated that during viral infection, HIV-1 IN interacts with DYNLL1, and their interaction was found to have a role in proper uncoating and efficient reverse transcription of HIV-1. Thus, interaction of IN and DYNLL1 may be a potential target for future anti-HIV therapy. Moreover, while our study has evaluated the involvement of IN in HIV-1 uncoating and reverse transcription, it also predicts a possible mechanism by which IN contributes to these early viral replication steps.
未标记
在本研究中,我们检测了宿主动力蛋白适配蛋白,如动力蛋白轻链1(DYNLL1)、动力蛋白轻链Tctex型1(DYNLT1)和p150(Glued)在1型人类免疫缺陷病毒(HIV-1)复制早期步骤中的需求。我们发现,敲低(KD)DYNLL1,而非DYNLT1或p150(Glued),会导致细胞中HIV-1逆转录水平显著降低。在尝试确定DYNLL1如何影响HIV-1逆转录后,我们检测到DYNLL1与HIV-1整合酶(IN)相互作用,但不与衣壳(CA)、基质(MA)或逆转录酶(RT)蛋白相互作用。此外,通过对IN中假定的DYNLL1相互作用基序进行突变分析,我们确定IN中的基序(52)GQVD和(250)VIQD对DYNLL1相互作用至关重要。DYNLL1相互作用缺陷的IN突变型HIV-1(HIV-1IN(Q53A/Q252A))表现出逆转录受损。通过进一步研究,我们还在DYNLL1-KD细胞或感染HIV-1IN(Q53A/Q252A)突变病毒的细胞中检测到相对较少的颗粒状CA。总体而言,我们的研究证明了HIV-1 IN与细胞DYNLL1蛋白之间的新型相互作用,并表明这种病毒-细胞相互作用对于HIV-1的正确脱壳和高效逆转录是必需的。
重要性
宿主细胞DYNLL1、DYNLT1和p150(Glued)蛋白已被证明与多种病毒的复制有关。然而,它们在HIV-1复制中的作用尚未得到研究。我们首次证明,在病毒感染期间,HIV-1 IN与DYNLL1相互作用,并且发现它们的相互作用在HIV-1的正确脱壳和高效逆转录中发挥作用。因此,IN与DYNLL1的相互作用可能是未来抗HIV治疗的潜在靶点。此外,虽然我们的研究评估了IN在HIV-1脱壳和逆转录中的作用,但它也预测了IN促成这些早期病毒复制步骤的可能机制。
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