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Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells

HIV-1 virion production is inefficient in cells derived from mice and other rodents reflecting cell-intrinsic defects to interactions between the HIV-1 auxiliary proteins Tat and Rev and host dependency factors CCNT1 (Cyclin T1) and XPO1 (exportin-1, also known as CRM1), respectively. In human cells...

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Autores principales: Behrens, Ryan T., Rajashekar, Jyothi Krishnaswamy, Bruce, James W., Evans, Edward L., Hansen, Amelia M., Salazar-Quiroz, Natalia, Simons, Lacy M., Ahlquist, Paul, Hultquist, Judd F., Kumar, Priti, Sherer, Nathan M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10653828/
https://www.ncbi.nlm.nih.gov/pubmed/37676006
http://dx.doi.org/10.1128/mbio.00420-23
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author Behrens, Ryan T.
Rajashekar, Jyothi Krishnaswamy
Bruce, James W.
Evans, Edward L.
Hansen, Amelia M.
Salazar-Quiroz, Natalia
Simons, Lacy M.
Ahlquist, Paul
Hultquist, Judd F.
Kumar, Priti
Sherer, Nathan M.
author_facet Behrens, Ryan T.
Rajashekar, Jyothi Krishnaswamy
Bruce, James W.
Evans, Edward L.
Hansen, Amelia M.
Salazar-Quiroz, Natalia
Simons, Lacy M.
Ahlquist, Paul
Hultquist, Judd F.
Kumar, Priti
Sherer, Nathan M.
author_sort Behrens, Ryan T.
collection PubMed
description HIV-1 virion production is inefficient in cells derived from mice and other rodents reflecting cell-intrinsic defects to interactions between the HIV-1 auxiliary proteins Tat and Rev and host dependency factors CCNT1 (Cyclin T1) and XPO1 (exportin-1, also known as CRM1), respectively. In human cells, Tat binds CCNT1 to enhance viral RNA transcription and Rev recruits XPO1 to mediate the nuclear export of intron-containing viral RNA. In mouse cells, Tat’s interactions with CCNT1 are inefficient, mapped to a single species-specific residue Y261 instead of C261 in humans. Rev interacts poorly with murine XPO1, mapped to a trio of amino acids T411/V412/S414 instead of P411/M412/F414 in humans. To determine if these discrete species-specific regions of otherwise conserved housekeeping proteins represent viable targets for inhibiting HIV-1 replication in humans, herein, we employed CRISPR/Cas9 to recode the relevant regions of CCNT1 and XPO1 in human CD4+ T cells. While efforts to modify XPO1 were inconclusive, we generated isogenic CCNT1.C261Y cell lines exhibiting remarkable resistance to HIV-1 Tat, exhibiting near total inactivation of viral gene expression for all X4- and R5-tropic HIV-1 strains tested, as well as the more distantly related primate lentiviruses HIV-2 and SIV(agm). Induction of viral reactivation using latency reversal agents (LRAs) was also restricted in CCNT1.C261Y cells. These studies validate a minor and naturally occurring, species-specific difference in a conserved human host factor as a compelling potential target for achieving broad-acting cell-intrinsic resistance to HIV’s post-integration phases. IMPORTANCE: Unlike humans, mice are unable to support HIV-1 infection. This is due, in part, to a constellation of defined minor, species-specific differences in conserved host proteins needed for viral gene expression. Here, we used precision CRISPR/Cas9 gene editing to engineer a “mousified” version of one such host protein, cyclin T1 (CCNT1), in human T cells. CCNT1 is essential for efficient HIV-1 transcription, making it an intriguing target for gene-based inactivation of virus replication. We show that isogenic cell lines engineered to encode CCNT1 bearing a single mouse-informed amino acid change (tyrosine in place of cysteine at position 261) exhibit potent, durable, and broad-spectrum resistance to HIV-1 and other pathogenic lentiviruses, and with no discernible impact on host cell biology. These results provide proof of concept for targeting CCNT1 in the context of one or more functional HIV-1 cure strategies.
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spelling pubmed-106538282023-09-07 Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells Behrens, Ryan T. Rajashekar, Jyothi Krishnaswamy Bruce, James W. Evans, Edward L. Hansen, Amelia M. Salazar-Quiroz, Natalia Simons, Lacy M. Ahlquist, Paul Hultquist, Judd F. Kumar, Priti Sherer, Nathan M. mBio Research Article HIV-1 virion production is inefficient in cells derived from mice and other rodents reflecting cell-intrinsic defects to interactions between the HIV-1 auxiliary proteins Tat and Rev and host dependency factors CCNT1 (Cyclin T1) and XPO1 (exportin-1, also known as CRM1), respectively. In human cells, Tat binds CCNT1 to enhance viral RNA transcription and Rev recruits XPO1 to mediate the nuclear export of intron-containing viral RNA. In mouse cells, Tat’s interactions with CCNT1 are inefficient, mapped to a single species-specific residue Y261 instead of C261 in humans. Rev interacts poorly with murine XPO1, mapped to a trio of amino acids T411/V412/S414 instead of P411/M412/F414 in humans. To determine if these discrete species-specific regions of otherwise conserved housekeeping proteins represent viable targets for inhibiting HIV-1 replication in humans, herein, we employed CRISPR/Cas9 to recode the relevant regions of CCNT1 and XPO1 in human CD4+ T cells. While efforts to modify XPO1 were inconclusive, we generated isogenic CCNT1.C261Y cell lines exhibiting remarkable resistance to HIV-1 Tat, exhibiting near total inactivation of viral gene expression for all X4- and R5-tropic HIV-1 strains tested, as well as the more distantly related primate lentiviruses HIV-2 and SIV(agm). Induction of viral reactivation using latency reversal agents (LRAs) was also restricted in CCNT1.C261Y cells. These studies validate a minor and naturally occurring, species-specific difference in a conserved human host factor as a compelling potential target for achieving broad-acting cell-intrinsic resistance to HIV’s post-integration phases. IMPORTANCE: Unlike humans, mice are unable to support HIV-1 infection. This is due, in part, to a constellation of defined minor, species-specific differences in conserved host proteins needed for viral gene expression. Here, we used precision CRISPR/Cas9 gene editing to engineer a “mousified” version of one such host protein, cyclin T1 (CCNT1), in human T cells. CCNT1 is essential for efficient HIV-1 transcription, making it an intriguing target for gene-based inactivation of virus replication. We show that isogenic cell lines engineered to encode CCNT1 bearing a single mouse-informed amino acid change (tyrosine in place of cysteine at position 261) exhibit potent, durable, and broad-spectrum resistance to HIV-1 and other pathogenic lentiviruses, and with no discernible impact on host cell biology. These results provide proof of concept for targeting CCNT1 in the context of one or more functional HIV-1 cure strategies. American Society for Microbiology 2023-09-07 /pmc/articles/PMC10653828/ /pubmed/37676006 http://dx.doi.org/10.1128/mbio.00420-23 Text en Copyright © 2023 Behrens et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Behrens, Ryan T.
Rajashekar, Jyothi Krishnaswamy
Bruce, James W.
Evans, Edward L.
Hansen, Amelia M.
Salazar-Quiroz, Natalia
Simons, Lacy M.
Ahlquist, Paul
Hultquist, Judd F.
Kumar, Priti
Sherer, Nathan M.
Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells
title Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells
title_full Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells
title_fullStr Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells
title_full_unstemmed Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells
title_short Exploiting a rodent cell block for intrinsic resistance to HIV-1 gene expression in human T cells
title_sort exploiting a rodent cell block for intrinsic resistance to hiv-1 gene expression in human t cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10653828/
https://www.ncbi.nlm.nih.gov/pubmed/37676006
http://dx.doi.org/10.1128/mbio.00420-23
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