The mTOR Complex Controls HIV Latency

Besnard, Emilie; Hakre, Shweta; Kampmann, Martin; Lim, Hyung W.; Hosmane, Nina N.; Martin, Arnold R.; Bassik, Michael C.; Verschueren, Erik; Battivelli, Emilie; Chan, Jonathan Ch; Svensson, J. Peter; Gramatica, Andrea; Conrad, Ryan J.; Ott, Mélanie; Greene, Warner C.; Krogan, Nevan J.; Siliciano, Robert F.; Weissman, Jonathan S.; Verdin, Eric

doi:10.1016/j.chom.2016.11.001

Cited by 176 publications

(216 citation statements)

References 58 publications

(76 reference statements)

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“…In addition, Martin et al reported on the potential beneficial use of rapamycin in the context of HIV "shock-and-kill" strategies (87). These two reports (86,87) further support the conclusions of our current study, which reveals the key role played by mTOR in regulating multiple postentry and postintegration HIV replication steps in gut-homing Th17-polarized CCR6 + T cells. In conclusion, our findings point to CCR6 as a "zip code" molecule expressed on the surface of CD4 + T cells transcriptionally programmed to become HIV targets upon recruitment into the intestine and provide a detailed molecular explanation for preferential HIV/SIV replication and persistence in gut-homing CCR6 + CD4 + T cells (24,25,37,42).…”

Section: On Hiv Replication In Ccr6supporting

confidence: 89%

“…In line with our recent report that HIV DNA persists in colon-infiltrating CCR6 + T cells during ART (37), it remains to be determined whether mTOR expression identifies a fraction of CCR6 + T cells enriched in HIV DNA and whether mTOR activation contributes to residual HIV replication in colon-infiltrating CCR6 + T cells during ART. While this manuscript was in preparation for submission, Besnard et al reported the results of a shR-NA screen that revealed mTOR as a regulator of HIV latency (86) via mechanisms involving CDK9 and NF-κB activation that controls Tat-dependent HIV transcription (86). In addition, Martin et al reported on the potential beneficial use of rapamycin in the context of HIV "shock-and-kill" strategies (87).…”

Section: On Hiv Replication In Ccr6mentioning

confidence: 99%

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HIV-1 selectively targets gut-homing CCR6+CD4+ T cells via mTOR-dependent mechanisms

Planas¹,

Zhang²,

Monteiro³

et al. 2017

JCI Insight

161

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Section: On Hiv Replication In Ccr6supporting

confidence: 89%

Section: On Hiv Replication In Ccr6mentioning

confidence: 99%

HIV-1 selectively targets gut-homing CCR6+CD4+ T cells via mTOR-dependent mechanisms

Planas¹,

Zhang²,

Monteiro³

et al. 2017

JCI Insight

161

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“…The Ser-Thr kinase mTOR complexes 1 and 2 were reported as a possible pathway for latency reversal [126]. Other well-known complexes implicated in the latency process were identified such as P-TEFb and the silencing complex PRC2 (EED, EZH2 and YY1 subunits), validating the shRNA screen approach [23].…”

Section: Host Factors Influencing Hiv-1 Latencymentioning

confidence: 86%

“…Other well-known complexes implicated in the latency process were identified such as P-TEFb and the silencing complex PRC2 (EED, EZH2 and YY1 subunits), validating the shRNA screen approach [23]. The authors used CRISPR interference to mTOR subunits, and specific small molecule inhibitors, to demonstrate the role of mTOR complexes in latency reversal [126]. Decrease in mTOR expression or reduced kinase activity impaired LRA-mediated or antigenic HIV-1 transcriptional activation, in latent cell line models and in primary CD4+ T lymphocytes isolated from ART-treated infected individuals.…”

Section: Host Factors Influencing Hiv-1 Latencymentioning

confidence: 97%

“…We postulated that the lack of occasional low-grade transcription caused by dCA may induce epigenetic changes that lock the HIV promoter in a sustainable latent state. Based on dCA’s mode of action, we have postulated a strategy of HIV-1 cure termed “Block-and-Lock”, where a specific HIV-1 transcriptional inhibitor would promote a durable state of latency, less susceptible to spontaneous reactivation during ART and when ART is discontinued [126–128]. …”

Section: The Super Elongation Complexmentioning

confidence: 99%

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Role of Host Factors on the Regulation of Tat-Mediated HIV-1 Transcription

Mousseau

Valente

2017

CPD

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Background The viral transactivator Tat protein is a key modulator of HIV-1 replication, as it regulates transcriptional elongation from the integrated proviral genome. Tat recruits the human transcription elongation factor b, and other host proteins, such as the super elongation complex, to activate the cellular RNA polymerase II, normally stalled shortly after transcription initiation at the HIV promoter. By means of a complex set of interactions with host cellular factors, Tat determines the fate of viral activity within the infected cell. The virus will either actively replicate to promote dissemination in blood and tissues, or become dormant mostly in memory CD4+ T cells, as part of a small but long-living latent reservoir, the main obstacle for HIV eradication. Objective In this review, we summarize recent advances in the understanding of the multi-step mechanism that regulates Tat-mediated HIV-1 transcription and RNA polymerase II release, to promote viral transcription elongation. Early events of the human transcription elongation factor b release from the inhibitory 7SK small nuclear ribonucleoprotein complex and its recruitment to the HIV promoter will be discussed. Specific roles of the super elongation complex subunits during transcription elongation, and insight on recently identified cellular factors and mechanisms regulating HIV latency will be detailed. Conclusion Understanding the complexity of HIV transcriptional regulation by host factors may open the door for development of novel strategies to eradicate the resilient latent reservoir.

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Metabolically active CD4+ T cells expressing Glut1 and OX40 preferentially harbor HIV during in vitro infection

Palmer

Duette

Wagner³

et al. 2017

FEBS Letters

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High Glut1 surface expression is associated with increased glycolytic activity in activated CD4+ T cells. PI3K activation measured by p-Akt and OX40 is elevated in CD4+Glut1+ T cells from HIV+ subjects. TCR engagement of CD4+Glut1+ T cells from HIV+ subjects demonstrate hyper-responsive PI3K-mTOR signalling. High basal Glut1 and OX40 on CD4+ T cells from combination antiretroviral therapy (cART)-treated HIV+ patients represent a sufficiently metabolically active state permissive for HIV infection in vitro without external stimuli. The majority of CD4+OX40+ T cells express Glut1, thus OX40 rather than Glut1 itself may facilitate HIV infection. Furthermore, infection of CD4+ T cells is limited by p110γ PI3K inhibition. Modulating glucose metabolism may limit cellular activation and prevent residual HIV replication in ‘virologically suppressed’ cART-treated HIV+ persons.

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The mTOR Complex Controls HIV Latency

Cited by 176 publications

References 58 publications

HIV-1 selectively targets gut-homing CCR6+CD4+ T cells via mTOR-dependent mechanisms

HIV-1 selectively targets gut-homing CCR6+CD4+ T cells via mTOR-dependent mechanisms

Role of Host Factors on the Regulation of Tat-Mediated HIV-1 Transcription

Metabolically active CD4+ T cells expressing Glut1 and OX40 preferentially harbor HIV during in vitro infection

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