Antiretroviral therapy timing impacts latent tuberculosis infection reactivation in a Mycobacterium tuberculosis/SIV coinfection model
Riti Sharan, … , Jyothi Rengarajan, Deepak Kaushal
Riti Sharan, … , Jyothi Rengarajan, Deepak Kaushal
Published December 2, 2021
Citation Information: J Clin Invest. 2022;132(3):e153090. https://doi.org/10.1172/JCI153090.
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Research Article AIDS/HIV Infectious disease

Antiretroviral therapy timing impacts latent tuberculosis infection reactivation in a Mycobacterium tuberculosis/SIV coinfection model

Abstract

Studies using the nonhuman primate model of Mycobacterium tuberculosis/simian immunodeficiency virus coinfection have revealed protective CD4+ T cell–independent immune responses that suppress latent tuberculosis infection (LTBI) reactivation. In particular, chronic immune activation rather than the mere depletion of CD4+ T cells correlates with reactivation due to SIV coinfection. Here, we administered combinatorial antiretroviral therapy (cART) 2 weeks after SIV coinfection to study whether restoration of CD4+ T cell immunity occurred more broadly, and whether this prevented reactivation of LTBI compared to cART initiated 4 weeks after SIV. Earlier initiation of cART enhanced survival, led to better control of viral replication, and reduced immune activation in the periphery and lung vasculature, thereby reducing the rate of SIV-induced reactivation. We observed robust CD8+ T effector memory responses and significantly reduced macrophage turnover in the lung tissue. However, skewed CD4+ T effector memory responses persisted and new TB lesions formed after SIV coinfection. Thus, reactivation of LTBI is governed by very early events of SIV infection. Timing of cART is critical in mitigating chronic immune activation. The potential novelty of these findings mainly relates to the development of a robust animal model of human M. tuberculosis/HIV coinfection that allows the testing of underlying mechanisms.

Authors

Riti Sharan, Shashank R. Ganatra, Allison N. Bucsan, Journey Cole, Dhiraj K. Singh, Xavier Alvarez, Maya Gough, Cynthia Alvarez, Alyssa Blakley, Justin Ferdin, Rajesh Thippeshappa, Bindu Singh, Ruby Escobedo, Vinay Shivanna, Edward J. Dick Jr., Shannan Hall-Ursone, Shabaana A. Khader, Smriti Mehra, Jyothi Rengarajan, Deepak Kaushal

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Figure 5

cART initiated at peak viremia better controls immune activation.

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cART initiated at peak viremia better controls immune activation. To stu...
To study the impact of cART timing on immune activation, we examined the percentages of (A) BAL HLA-DR+, (B) BAL CD69+, (C) whole-blood HLA-DR+, and (D) whole-blood CD69+CD4+ T cells at peak viremia (week 11 after TB) and at necropsy. (E) CCR5+CD4+ and (F) CXCR3+CD4+ T cells were examined in the lungs, BAL, whole blood, and granulomas of cART/2 week (n = 4) and cART/4 week (n = 5) at necropsy. Percentages of CXCR3+CCR6+CD4+ T cells were examined in the (G) BAL and (H) whole blood at peak viremia (week 11 after TB) and at necropsy in LTBI (n = 4), cART naive (n = 8), cART/2 week (n = 4), and cART/4 week (n = 5). WB, whole blood. Significance was determined using 1-way ANOVA with Tukey’s correction. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001. Data are presented as mean ± SEM.