Antigen-driven clonal selection shapes the persistence of HIV-1-infected CD4+T cells in vivo

Francesco R. Simonetti; Hao Zhang; Garshasb P. Soroosh; Jiayi Duan; Kyle Rhodehouse; Alison L. Hill; Subul A. Beg; Kevin McClurkan; Hayley E. Raymond; Christopher L. Nobles; John K. Everett; Kyungyoon J. Kwon; Jennifer A. White; Jun Lai; Joseph B. Margolick; Rebecca Hoh; Steven G. Deeks; Frederic D. Bushman; Janet D. Siliciano; Robert F. Siliciano

doi:10.1172/JCI145254

Antigen-driven clonal selection shapes the persistence of HIV-1-infected CD4⁺T cells in vivo

Francesco R. Simonetti, Hao Zhang, Garshasb P. Soroosh, Jiayi Duan, Kyle Rhodehouse, Alison L. Hill, Subul A. Beg, Kevin McClurkan, Hayley E. Raymond, Christopher L. Nobles, John K. Everett, Kyungyoon J. Kwon, Jennifer A. White, Jun Lai, Joseph B. Margolick, Rebecca Hoh, Steven G. Deeks, Frederic D. Bushman, Janet D. Siliciano, Robert F. Siliciano

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

2 Scopus citations

Abstract

Clonal expansion of infected CD4+ T cells is a major mechanism of HIV-1 persistence and a barrier to achieving a cure. Potential causes are homeostatic proliferation, effects of HIV-1 integration, and interaction with antigens. Here, we show that it is possible to link antigen responsiveness, the full proviral sequence, the integration site, and the T cell receptor β-chain (TCRβ) sequence to examine the role of recurrent antigenic exposure in maintaining the HIV-1 reservoir. We isolated CMV- and Gag-responding CD4+ T cells from 10 treated individuals. Proviral populations in CMV-responding cells were dominated by large clones, including clones harboring replication-competent proviruses. TCRβ repertoires showed high clonality driven by converging adaptive responses. Although some proviruses were in genes linked to HIV-1 persistence (BACH2, STAT5B, MKL1), the proliferation of infected cells under antigenic stimulation occurred regardless of the site of integration. Paired TCRβ and integration site analysis showed that infection could occur early or late in the course of a clone's response to antigen and could generate infected cell populations too large to be explained solely by homeostatic proliferation. Together, these findings implicate antigen-driven clonal selection as a major factor in HIV-1 persistence, a finding that will be a difficult challenge to eradication efforts.

Original language	English (US)
Article number	e145254
Journal	Journal of Clinical Investigation
Volume	131
Issue number	3
DOIs	https://doi.org/10.1172/JCI145254
State	Published - Feb 1 2021

ASJC Scopus subject areas

General Medicine

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Simonetti, F. R., Zhang, H., Soroosh, G. P., Duan, J., Rhodehouse, K., Hill, A. L., Beg, S. A., McClurkan, K., Raymond, H. E., Nobles, C. L., Everett, J. K., Kwon, K. J., White, J. A., Lai, J., Margolick, J. B., Hoh, R., Deeks, S. G., Bushman, F. D., Siliciano, J. D., & Siliciano, R. F. (2021). Antigen-driven clonal selection shapes the persistence of HIV-1-infected CD4⁺T cells in vivo. Journal of Clinical Investigation, 131(3), Article e145254. https://doi.org/10.1172/JCI145254

Simonetti, FR , Zhang, H, Soroosh, GP, Duan, J, Rhodehouse, K, Hill, AL, Beg, SA, McClurkan, K, Raymond, HE, Nobles, CL, Everett, JK, Kwon, KJ, White, JA, Lai, J, Margolick, JB, Hoh, R, Deeks, SG, Bushman, FD, Siliciano, JD & Siliciano, RF 2021, 'Antigen-driven clonal selection shapes the persistence of HIV-1-infected CD4⁺T cells in vivo', Journal of Clinical Investigation, vol. 131, no. 3, e145254. https://doi.org/10.1172/JCI145254

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title = "Antigen-driven clonal selection shapes the persistence of HIV-1-infected CD4+T cells in vivo",

abstract = "Clonal expansion of infected CD4+ T cells is a major mechanism of HIV-1 persistence and a barrier to achieving a cure. Potential causes are homeostatic proliferation, effects of HIV-1 integration, and interaction with antigens. Here, we show that it is possible to link antigen responsiveness, the full proviral sequence, the integration site, and the T cell receptor β-chain (TCRβ) sequence to examine the role of recurrent antigenic exposure in maintaining the HIV-1 reservoir. We isolated CMV- and Gag-responding CD4+ T cells from 10 treated individuals. Proviral populations in CMV-responding cells were dominated by large clones, including clones harboring replication-competent proviruses. TCRβ repertoires showed high clonality driven by converging adaptive responses. Although some proviruses were in genes linked to HIV-1 persistence (BACH2, STAT5B, MKL1), the proliferation of infected cells under antigenic stimulation occurred regardless of the site of integration. Paired TCRβ and integration site analysis showed that infection could occur early or late in the course of a clone's response to antigen and could generate infected cell populations too large to be explained solely by homeostatic proliferation. Together, these findings implicate antigen-driven clonal selection as a major factor in HIV-1 persistence, a finding that will be a difficult challenge to eradication efforts.",

author = "Simonetti, {Francesco R.} and Hao Zhang and Soroosh, {Garshasb P.} and Jiayi Duan and Kyle Rhodehouse and Hill, {Alison L.} and Beg, {Subul A.} and Kevin McClurkan and Raymond, {Hayley E.} and Nobles, {Christopher L.} and Everett, {John K.} and Kwon, {Kyungyoon J.} and White, {Jennifer A.} and Jun Lai and Margolick, {Joseph B.} and Rebecca Hoh and Deeks, {Steven G.} and Bushman, {Frederic D.} and Siliciano, {Janet D.} and Siliciano, {Robert F.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2021, American Society for Clinical Investigation.",

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doi = "10.1172/JCI145254",

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AU - Simonetti, Francesco R.

AU - Zhang, Hao

AU - Soroosh, Garshasb P.

AU - Duan, Jiayi

AU - Rhodehouse, Kyle

AU - Hill, Alison L.

AU - Beg, Subul A.

AU - McClurkan, Kevin

AU - Raymond, Hayley E.

AU - Nobles, Christopher L.

AU - Everett, John K.

AU - Kwon, Kyungyoon J.

AU - White, Jennifer A.

AU - Lai, Jun

AU - Margolick, Joseph B.

AU - Hoh, Rebecca

AU - Deeks, Steven G.

AU - Bushman, Frederic D.

AU - Siliciano, Janet D.

AU - Siliciano, Robert F.

PY - 2021/2/1

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N2 - Clonal expansion of infected CD4+ T cells is a major mechanism of HIV-1 persistence and a barrier to achieving a cure. Potential causes are homeostatic proliferation, effects of HIV-1 integration, and interaction with antigens. Here, we show that it is possible to link antigen responsiveness, the full proviral sequence, the integration site, and the T cell receptor β-chain (TCRβ) sequence to examine the role of recurrent antigenic exposure in maintaining the HIV-1 reservoir. We isolated CMV- and Gag-responding CD4+ T cells from 10 treated individuals. Proviral populations in CMV-responding cells were dominated by large clones, including clones harboring replication-competent proviruses. TCRβ repertoires showed high clonality driven by converging adaptive responses. Although some proviruses were in genes linked to HIV-1 persistence (BACH2, STAT5B, MKL1), the proliferation of infected cells under antigenic stimulation occurred regardless of the site of integration. Paired TCRβ and integration site analysis showed that infection could occur early or late in the course of a clone's response to antigen and could generate infected cell populations too large to be explained solely by homeostatic proliferation. Together, these findings implicate antigen-driven clonal selection as a major factor in HIV-1 persistence, a finding that will be a difficult challenge to eradication efforts.

AB - Clonal expansion of infected CD4+ T cells is a major mechanism of HIV-1 persistence and a barrier to achieving a cure. Potential causes are homeostatic proliferation, effects of HIV-1 integration, and interaction with antigens. Here, we show that it is possible to link antigen responsiveness, the full proviral sequence, the integration site, and the T cell receptor β-chain (TCRβ) sequence to examine the role of recurrent antigenic exposure in maintaining the HIV-1 reservoir. We isolated CMV- and Gag-responding CD4+ T cells from 10 treated individuals. Proviral populations in CMV-responding cells were dominated by large clones, including clones harboring replication-competent proviruses. TCRβ repertoires showed high clonality driven by converging adaptive responses. Although some proviruses were in genes linked to HIV-1 persistence (BACH2, STAT5B, MKL1), the proliferation of infected cells under antigenic stimulation occurred regardless of the site of integration. Paired TCRβ and integration site analysis showed that infection could occur early or late in the course of a clone's response to antigen and could generate infected cell populations too large to be explained solely by homeostatic proliferation. Together, these findings implicate antigen-driven clonal selection as a major factor in HIV-1 persistence, a finding that will be a difficult challenge to eradication efforts.

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Antigen-driven clonal selection shapes the persistence of HIV-1-infected CD4⁺T cells in vivo

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