Abstract
BackgroundSeveral members of the TRIM family have been implicated in antiviral defense. Our previous report showed that human TRIM11 potently inhibited HIV-1 transduction by reducing the viral reverse transcripts. These results prompted us to examine the effect of TRIM11 on HIV-1 uncoating, which is closely related to viral reverse transcription.ResultsUsing a combination of in vitro binding and in situ proximity ligation assay, we showed that TRIM11 could interact with HIV-1 capsid. Overexpression of TRIM11 accelerates HIV-1 uncoating and reduces viral reverse transcription indicated by the fate-of-capsid assay and quantitative PCR respectively. Knockdown of TRIM11 enhanced HIV-1 capsid stability and increased viral reverse transcription. However, the replication of another retrovirus MLV is not affected by TRIM11. Moreover, the reverse transcription of HIV-1 mutant bearing capsid G89V showed insensitivity to restriction by TRIM11, indicating that the viral determinant of restriction by TRIM11 might reside on capsid. Using microtubule dynamics inhibitors, we revealed that microtubule dynamics contributes to TRIM11-mediated HIV-1 capsid premature disassembly and the reduction of reverse transcription levels. Finally, we demonstrated that TRIM11 inhibits HIV-1 transduction and accelerates viral uncoating in HIV-1 permissive THP-1-derived macrophages.ConclusionsWe identify TRIM11 as a new HIV-1 capsid binding protein. Our data also reveal that TRIM11 restricts HIV-1 reverse transcription by accelerating viral uncoating, and microtubule dynamics is implicated in TRIM11-imposed block to early events of HIV-1 replication.Electronic supplementary materialThe online version of this article (doi:10.1186/s12977-016-0306-5) contains supplementary material, which is available to authorized users.
Highlights
Several members of the tripartite motif containing (TRIM) family have been implicated in antiviral defense
We examined the ability of TRIM11 to bind in vitro assembled HIV-1 capsid-nucleocapsid (CANC) complexes, which simulate the surface of viral core and represent an established model for the assessment of HIV-1 capsid interacting proteins [3]
We found that the amount of TRIM11 in the pellet increased with the amount of HIV-1 CA-NC complexes (Fig. 1b)
Summary
Our previous report showed that human TRIM11 potently inhibited HIV-1 transduction by reducing the viral reverse transcripts. The human tripartite motif containing (TRIM) protein family includes approximately 100 members. These proteins have diverse functions ranging from DNA damage signaling to antiviral activities. Of the TRIM family proteins which have been demonstrated possessing antiviral activities, TRIM5α is the best characterized one, which has been identified as a potent restriction factor against retroviruses in a species-specific manner [1, 2]. Rhesus monkey TRIM5α (TRIM5αrh) restricts HIV-1 replication via multiple mechanisms [1, 3,4,5,6]: (1) TRIM5αrh recognizes HIV-1 capsid causing premature uncoating and reduced viral reverse transcription [1, 3]. Human TRIM5α (TRIM5αhu) only weakly inhibits HIV-1 as it does not recognize the viral capsid [3, 7]
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