γδ T cells: an immunotherapeutic approach for HIV cure strategies
Carolina Garrido, Matthew L. Clohosey, Chloe P. Whitworth, Michael Hudgens, David M. Margolis, Natalia Soriano-Sarabia
Carolina Garrido, Matthew L. Clohosey, Chloe P. Whitworth, Michael Hudgens, David M. Margolis, Natalia Soriano-Sarabia
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Research Article AIDS/HIV

γδ T cells: an immunotherapeutic approach for HIV cure strategies

Abstract

Current strategies aimed to cure HIV infection are based on combined efforts to reactivate the virus from latency and improve immune effector cell function to clear infected cells. These strategies are primarily focused on CD8+ T cells and approaches are challenging due to insufficient HIV antigen production from infected cells and poor HIV-specific CD8+ T cells. γδ T cells represent a unique subset of effector T cells that can traffic to tissues, and selectively target cancer or virally infected cells without requiring MHC presentation. We analyzed whether γδ T cells represent a complementary/alternative immunotherapeutic approach towards HIV cure strategies. γδ T cells from HIV-infected virologically suppressed donors were expanded with bisphosphonate pamidronate (PAM) and cells were used in autologous cellular systems ex vivo. These cells (a) are potent cytotoxic effectors able to efficiently inhibit HIV replication ex vivo, (b) degranulate in the presence of autologous infected CD4+ T cells, and (c) specifically clear latently infected cells after latency reversal with vorinostat. This is the first proof of concept to our knowledge showing that γδ T cells target and clear autologous HIV reservoirs upon latency reversal. Our results open potentially new insights into the immunotherapeutic use of γδ T cells for current interventions in HIV eradication strategies.

Authors

Carolina Garrido, Matthew L. Clohosey, Chloe P. Whitworth, Michael Hudgens, David M. Margolis, Natalia Soriano-Sarabia

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Figure 5

Vδ2 cells degranulate in the presence of autologous HIV-infected CD4+ T cells.

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Vδ2 cells degranulate in the presence of autologous HIV-infected CD4+ T ...
(A) Flow cytometry plots showing an example of CD107a detection in cocultures of expanded Vδ2 cells with autologous CD4+ cells (left) and with autologous JR-CSF–superinfected CD4+ cells (right). (B) Greater CD107a production in the presence of HIV-infected cells. CD107a production was statistically higher when Vδ2 cells were cocultured with HIV-superinfected CD4+ cells compared with cocultures of autologous isolated CD4+ cells (FDR P = 0.006). CD107a production was the highest when Vδ2 cells were cocultured with PHA-activated, HIV-superinfected CD4+ cells (FDR P = 0.02) but without statistical differences compared with cells infected using polybrene. Mean ± SEM is represented. P = 0.08, Wilcoxon’s matched-pairs signed-rank test. (C) Comparable degranulation capacity of Vδ2 cells between donors treated in acute and chronic HIV infection. CD107a production was not statistically different between acute and chronic patients. Both groups of patients showed statistically higher CD107a expression in cocultures of Vδ2 cells and superinfected CD4+ target cells than in cultures of Vδ2 cells cocultured with ex vivo–isolated CD4+ cells. Effector/target ratio (1:1). Mann-Whitney U test.