In vivo killing of primary HIV-infected cells by peripheral-injected early memory–enriched anti-HIV duoCAR T cells
Kim Anthony-Gonda, … , Harris Goldstein, Boro Dropulić
Kim Anthony-Gonda, … , Harris Goldstein, Boro Dropulić
Published November 8, 2022
Citation Information: JCI Insight. 2022;7(21):e161698. https://doi.org/10.1172/jci.insight.161698.
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Research Article AIDS/HIV Therapeutics

In vivo killing of primary HIV-infected cells by peripheral-injected early memory–enriched anti-HIV duoCAR T cells

Abstract

HIV-specific chimeric antigen receptor–T cell (CAR T cell) therapies are candidates to functionally cure HIV infection in people with HIV (PWH) by eliminating reactivated HIV-infected cells derived from latently infected cells within the HIV reservoir. Paramount to translating such therapeutic candidates successfully into the clinic will require anti-HIV CAR T cells to localize to lymphoid tissues in the body and eliminate reactivated HIV-infected cells such as CD4+ T cells and monocytes/macrophages. Here we show that i.v. injected anti-HIV duoCAR T cells, generated using a clinical-grade anti-HIV duoCAR lentiviral vector, localized to the site of active HIV infection in the spleen of humanized mice and eliminated HIV-infected PBMCs. CyTOF analysis of preinfusion duoCAR T cells revealed an early memory phenotype composed predominantly of CCR7+ stem cell–like/central memory T cells (TSCM/TCM) with expression of some effector-like molecules. In addition, we show that anti-HIV duoCAR T cells effectively sense and kill HIV-infected CD4+ T cells and monocytes/macrophages. Furthermore, we demonstrate efficient genetic modification of T cells from PWH on suppressive ART into anti-HIV duoCAR T cells that subsequently kill autologous PBMCs superinfected with HIV. These studies support the safety and efficacy of anti-HIV duoCAR T cell therapy in our presently open phase I/IIa clinical trial (NCT04648046).

Authors

Kim Anthony-Gonda, Alex Ray, Hang Su, Yuge Wang, Ying Xiong, Danica Lee, Ariele Block, Vanessa Chilunda, Jessica Weiselberg, Lily Zemelko, Yen Y. Wang, Sarah Kleinsorge-Block, Jane S. Reese, Marcos de Lima, Christina Ochsenbauer, John C. Kappes, Dimiter S. Dimitrov, Rimas Orentas, Steven G. Deeks, Rachel L. Rutishauser, Joan W. Berman, Harris Goldstein, Boro Dropulić

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Figure 2

In vivo localization and potent anti-HIV efficacy of i.v.-administered anti-HIV duoCAR T cell therapy in humanized HIV-infected mice.

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In vivo localization and potent anti-HIV efficacy of i.v.-administered a...
(A) Illustration of the hu-spl-PBMC-NSG model of HIV-1 infection. The safety and efficacy of i.v.-administered anti-HIV duoCAR T cell therapy were evaluated in PBMC-humanized NSG mice after 17–18 days of intrasplenic HIV-1 infection. (B) T cell memory phenotype of the preinfusion anti-HIV duoCAR T cell product manufactured on the CliniMACS Prodigy device (n = 2 donors). TSCM (CD45RA+CCR7+) and TCM (CD45RACCR7+) cell populations were determined by flow cytometry. TSCM were delineated from TN (naive T cells [CD45RA+CCR7+CD95-]) cells by the presence of CD95+ on CD45RA+CCR7+ cells (gating strategy shown in Supplemental Figure 4). (C) Quantification of HIV-1 viral load via Renilla luciferase (LucR) activity in the spleens of humanized mice after 17–18 days of HIV-1 infection. (D) Quantification of cell-associated total HIV-1 DNA in the spleens of humanized mice after 17–18 days of HIV-1 infection. Results are expressed as HIV-1 Gag DNA copies per 1 million β-actin copies. ND, not detected. One of the mice in the MND-ΔW duoCAR T cell–treated group had insufficient cells for HIV DNA analysis; therefore, only 5 samples were evaluated for this group. (E and F) Persistence and biodistribution profile of intravenously administered anti-HIV duoCAR T cells in the blood and major organs of humanized mice after 17–18 days of HIV-1 infection. Data are expressed as CAR DNA copies per 1 million polypyrimidine tract binding protein 2 (PTBP2) copies. Data are shown as mean ± SD of samples tested (n = 5–9 mice). Statistical analysis was performed by 1-way ANOVA followed by Dunnett’s multiple-comparison post hoc test. *P < 0.05.