Identification of novel HIV-1 dependency factors in primary CCR4+CCR6+Th17 cells via a genome-wide transcriptional approach

Aurélie Cleret-Buhot; Yuwei Zhang; Delphine Planas; Jean Philippe Goulet; Patricia Monteiro; Annie Gosselin; Vanessa Sue Wacleche; Cécile L. Tremblay; Mohammad Ali Jenabian; Jean Pierre Routy; Mohamed El-Far; Nicolas Chomont; Elias K. Haddad; Rafick Pierre Sekaly; Petronela Ancuta

doi:10.1186/s12977-015-0226-9

Identification of novel HIV-1 dependency factors in primary CCR4⁺CCR6⁺Th17 cells via a genome-wide transcriptional approach

Aurélie Cleret-Buhot, Yuwei Zhang, Delphine Planas, Jean Philippe Goulet, Patricia Monteiro, Annie Gosselin, Vanessa Sue Wacleche, Cécile L. Tremblay, Mohammad Ali Jenabian, Jean Pierre Routy, Mohamed El-Far, Nicolas Chomont, Elias K. Haddad, Rafick Pierre Sekaly, Petronela Ancuta

Research output: Contribution to journal › Article › peer-review

46 Scopus citations

Abstract

Background: The HIV-1 infection is characterized by profound CD4⁺ T cell destruction and a marked Th17 dysfunction at the mucosal level. Viral suppressive antiretroviral therapy restores Th1 but not Th17 cells. Although several key HIV dependency factors (HDF) were identified in the past years via genome-wide siRNA screens in cell lines, molecular determinants of HIV permissiveness in primary Th17 cells remain to be elucidated. Results: In an effort to orient Th17-targeted reconstitution strategies, we investigated molecular mechanisms of HIV permissiveness in Th17 cells. Genome-wide transcriptional profiling in memory CD4⁺ T-cell subsets enriched in cells exhibiting Th17 (CCR4⁺CCR6⁺), Th1 (CXCR3⁺CCR6^-), Th2 (CCR4⁺CCR6^-), and Th1Th17 (CXCR3⁺CCR6⁺) features revealed remarkable transcriptional differences between Th17 and Th1 subsets. The HIV-DNA integration was superior in Th17 versus Th1 upon exposure to both wild-type and VSV-G-pseudotyped HIV; this indicates that post-entry mechanisms contribute to viral replication in Th17. Transcripts significantly enriched in Th17 versus Th1 were previously associated with the regulation of TCR signaling (ZAP-70, Lck, and CD96) and Th17 polarization (RORγt, ARNTL, PTPN13, and RUNX1). A meta-analysis using the NCBI HIV Interaction Database revealed a set of Th17-specific HIV dependency factors (HDFs): PARG, PAK2, KLF2, ITGB7, PTEN, ATG16L1, Alix/AIP1/PDCD6IP, LGALS3, JAK1, TRIM8, MALT1, FOXO3, ARNTL/BMAL1, ABCB1/MDR1, TNFSF13B/BAFF, and CDKN1B. Functional studies demonstrated an increased ability of Th17 versus Th1 cells to respond to TCR triggering in terms of NF-κB nuclear translocation/DNA-binding activity and proliferation. Finally, RNA interference studies identified MAP3K4 and PTPN13 as two novel Th17-specific HDFs. Conclusions: The transcriptional program of Th17 cells includes molecules regulating HIV replication at multiple post-entry steps that may represent potential targets for novel therapies aimed at protecting Th17 cells from infection and subsequent depletion in HIV-infected subjects.

Original language	English (US)
Article number	102
Journal	Retrovirology
Volume	12
Issue number	1
DOIs	https://doi.org/10.1186/s12977-015-0226-9
State	Published - Dec 10 2015
Externally published	Yes

Keywords

HIV-1 dependency factors
Human Th17 cells
MAP3K4
NF-κB
PTPN13
TCR

ASJC Scopus subject areas

Virology
Infectious Diseases

Access to Document

10.1186/s12977-015-0226-9

Cite this

Cleret-Buhot, A., Zhang, Y., Planas, D., Goulet, J. P., Monteiro, P., Gosselin, A., Wacleche, V. S., Tremblay, C. L., Jenabian, M. A., Routy, J. P., El-Far, M., Chomont, N., Haddad, E. K., Sekaly, R. P., & Ancuta, P. (2015). Identification of novel HIV-1 dependency factors in primary CCR4⁺CCR6⁺Th17 cells via a genome-wide transcriptional approach. Retrovirology, 12(1), Article 102. https://doi.org/10.1186/s12977-015-0226-9

Cleret-Buhot, A, Zhang, Y, Planas, D, Goulet, JP, Monteiro, P, Gosselin, A, Wacleche, VS, Tremblay, CL, Jenabian, MA, Routy, JP, El-Far, M, Chomont, N, Haddad, EK, Sekaly, RP & Ancuta, P 2015, 'Identification of novel HIV-1 dependency factors in primary CCR4⁺CCR6⁺Th17 cells via a genome-wide transcriptional approach', Retrovirology, vol. 12, no. 1, 102. https://doi.org/10.1186/s12977-015-0226-9

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title = "Identification of novel HIV-1 dependency factors in primary CCR4+CCR6+Th17 cells via a genome-wide transcriptional approach",

abstract = "Background: The HIV-1 infection is characterized by profound CD4+ T cell destruction and a marked Th17 dysfunction at the mucosal level. Viral suppressive antiretroviral therapy restores Th1 but not Th17 cells. Although several key HIV dependency factors (HDF) were identified in the past years via genome-wide siRNA screens in cell lines, molecular determinants of HIV permissiveness in primary Th17 cells remain to be elucidated. Results: In an effort to orient Th17-targeted reconstitution strategies, we investigated molecular mechanisms of HIV permissiveness in Th17 cells. Genome-wide transcriptional profiling in memory CD4+ T-cell subsets enriched in cells exhibiting Th17 (CCR4+CCR6+), Th1 (CXCR3+CCR6-), Th2 (CCR4+CCR6-), and Th1Th17 (CXCR3+CCR6+) features revealed remarkable transcriptional differences between Th17 and Th1 subsets. The HIV-DNA integration was superior in Th17 versus Th1 upon exposure to both wild-type and VSV-G-pseudotyped HIV; this indicates that post-entry mechanisms contribute to viral replication in Th17. Transcripts significantly enriched in Th17 versus Th1 were previously associated with the regulation of TCR signaling (ZAP-70, Lck, and CD96) and Th17 polarization (RORγt, ARNTL, PTPN13, and RUNX1). A meta-analysis using the NCBI HIV Interaction Database revealed a set of Th17-specific HIV dependency factors (HDFs): PARG, PAK2, KLF2, ITGB7, PTEN, ATG16L1, Alix/AIP1/PDCD6IP, LGALS3, JAK1, TRIM8, MALT1, FOXO3, ARNTL/BMAL1, ABCB1/MDR1, TNFSF13B/BAFF, and CDKN1B. Functional studies demonstrated an increased ability of Th17 versus Th1 cells to respond to TCR triggering in terms of NF-κB nuclear translocation/DNA-binding activity and proliferation. Finally, RNA interference studies identified MAP3K4 and PTPN13 as two novel Th17-specific HDFs. Conclusions: The transcriptional program of Th17 cells includes molecules regulating HIV replication at multiple post-entry steps that may represent potential targets for novel therapies aimed at protecting Th17 cells from infection and subsequent depletion in HIV-infected subjects.",

keywords = "HIV-1 dependency factors, Human Th17 cells, MAP3K4, NF-κB, PTPN13, TCR",

author = "Aur{\'e}lie Cleret-Buhot and Yuwei Zhang and Delphine Planas and Goulet, {Jean Philippe} and Patricia Monteiro and Annie Gosselin and Wacleche, {Vanessa Sue} and Tremblay, {C{\'e}cile L.} and Jenabian, {Mohammad Ali} and Routy, {Jean Pierre} and Mohamed El-Far and Nicolas Chomont and Haddad, {Elias K.} and Sekaly, {Rafick Pierre} and Petronela Ancuta",

note = "Publisher Copyright: {\textcopyright} 2015 Cleret-Buhot et al.",

year = "2015",

month = dec,

day = "10",

doi = "10.1186/s12977-015-0226-9",

language = "English (US)",

volume = "12",

journal = "Retrovirology",

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TY - JOUR

T1 - Identification of novel HIV-1 dependency factors in primary CCR4+CCR6+Th17 cells via a genome-wide transcriptional approach

AU - Cleret-Buhot, Aurélie

AU - Zhang, Yuwei

AU - Planas, Delphine

AU - Goulet, Jean Philippe

AU - Monteiro, Patricia

AU - Gosselin, Annie

AU - Wacleche, Vanessa Sue

AU - Tremblay, Cécile L.

AU - Jenabian, Mohammad Ali

AU - Routy, Jean Pierre

AU - El-Far, Mohamed

AU - Chomont, Nicolas

AU - Haddad, Elias K.

AU - Sekaly, Rafick Pierre

AU - Ancuta, Petronela

PY - 2015/12/10

Y1 - 2015/12/10

N2 - Background: The HIV-1 infection is characterized by profound CD4+ T cell destruction and a marked Th17 dysfunction at the mucosal level. Viral suppressive antiretroviral therapy restores Th1 but not Th17 cells. Although several key HIV dependency factors (HDF) were identified in the past years via genome-wide siRNA screens in cell lines, molecular determinants of HIV permissiveness in primary Th17 cells remain to be elucidated. Results: In an effort to orient Th17-targeted reconstitution strategies, we investigated molecular mechanisms of HIV permissiveness in Th17 cells. Genome-wide transcriptional profiling in memory CD4+ T-cell subsets enriched in cells exhibiting Th17 (CCR4+CCR6+), Th1 (CXCR3+CCR6-), Th2 (CCR4+CCR6-), and Th1Th17 (CXCR3+CCR6+) features revealed remarkable transcriptional differences between Th17 and Th1 subsets. The HIV-DNA integration was superior in Th17 versus Th1 upon exposure to both wild-type and VSV-G-pseudotyped HIV; this indicates that post-entry mechanisms contribute to viral replication in Th17. Transcripts significantly enriched in Th17 versus Th1 were previously associated with the regulation of TCR signaling (ZAP-70, Lck, and CD96) and Th17 polarization (RORγt, ARNTL, PTPN13, and RUNX1). A meta-analysis using the NCBI HIV Interaction Database revealed a set of Th17-specific HIV dependency factors (HDFs): PARG, PAK2, KLF2, ITGB7, PTEN, ATG16L1, Alix/AIP1/PDCD6IP, LGALS3, JAK1, TRIM8, MALT1, FOXO3, ARNTL/BMAL1, ABCB1/MDR1, TNFSF13B/BAFF, and CDKN1B. Functional studies demonstrated an increased ability of Th17 versus Th1 cells to respond to TCR triggering in terms of NF-κB nuclear translocation/DNA-binding activity and proliferation. Finally, RNA interference studies identified MAP3K4 and PTPN13 as two novel Th17-specific HDFs. Conclusions: The transcriptional program of Th17 cells includes molecules regulating HIV replication at multiple post-entry steps that may represent potential targets for novel therapies aimed at protecting Th17 cells from infection and subsequent depletion in HIV-infected subjects.

AB - Background: The HIV-1 infection is characterized by profound CD4+ T cell destruction and a marked Th17 dysfunction at the mucosal level. Viral suppressive antiretroviral therapy restores Th1 but not Th17 cells. Although several key HIV dependency factors (HDF) were identified in the past years via genome-wide siRNA screens in cell lines, molecular determinants of HIV permissiveness in primary Th17 cells remain to be elucidated. Results: In an effort to orient Th17-targeted reconstitution strategies, we investigated molecular mechanisms of HIV permissiveness in Th17 cells. Genome-wide transcriptional profiling in memory CD4+ T-cell subsets enriched in cells exhibiting Th17 (CCR4+CCR6+), Th1 (CXCR3+CCR6-), Th2 (CCR4+CCR6-), and Th1Th17 (CXCR3+CCR6+) features revealed remarkable transcriptional differences between Th17 and Th1 subsets. The HIV-DNA integration was superior in Th17 versus Th1 upon exposure to both wild-type and VSV-G-pseudotyped HIV; this indicates that post-entry mechanisms contribute to viral replication in Th17. Transcripts significantly enriched in Th17 versus Th1 were previously associated with the regulation of TCR signaling (ZAP-70, Lck, and CD96) and Th17 polarization (RORγt, ARNTL, PTPN13, and RUNX1). A meta-analysis using the NCBI HIV Interaction Database revealed a set of Th17-specific HIV dependency factors (HDFs): PARG, PAK2, KLF2, ITGB7, PTEN, ATG16L1, Alix/AIP1/PDCD6IP, LGALS3, JAK1, TRIM8, MALT1, FOXO3, ARNTL/BMAL1, ABCB1/MDR1, TNFSF13B/BAFF, and CDKN1B. Functional studies demonstrated an increased ability of Th17 versus Th1 cells to respond to TCR triggering in terms of NF-κB nuclear translocation/DNA-binding activity and proliferation. Finally, RNA interference studies identified MAP3K4 and PTPN13 as two novel Th17-specific HDFs. Conclusions: The transcriptional program of Th17 cells includes molecules regulating HIV replication at multiple post-entry steps that may represent potential targets for novel therapies aimed at protecting Th17 cells from infection and subsequent depletion in HIV-infected subjects.

KW - HIV-1 dependency factors

KW - Human Th17 cells

KW - MAP3K4

KW - NF-κB

KW - PTPN13

KW - TCR

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