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Rare variable M. tuberculosis antigens induce predominant Th17 responses in human infection
Paul Ogongo, Liya Wassie, Anthony Tran, Devin Columbus, Julia Huffaker, Lisa Sharling, Gregory Ouma, Samuel Gurrion Ouma, Kidist Bobosha, Cecilia S. Lindestam Arlehamn, Neel R. Gandhi, Sara C. Auld, Jyothi Rengarajan, Cheryl L. Day, Artur Queiroz, Mariana Araújo-Pereira, Eduardo Fukutani, Bruno B. Andrade, John D. Altman, Henry M. Blumberg, Joel D. Ernst, the TBRU ASTRa Study Group
Paul Ogongo, Liya Wassie, Anthony Tran, Devin Columbus, Julia Huffaker, Lisa Sharling, Gregory Ouma, Samuel Gurrion Ouma, Kidist Bobosha, Cecilia S. Lindestam Arlehamn, Neel R. Gandhi, Sara C. Auld, Jyothi Rengarajan, Cheryl L. Day, Artur Queiroz, Mariana Araújo-Pereira, Eduardo Fukutani, Bruno B. Andrade, John D. Altman, Henry M. Blumberg, Joel D. Ernst, the TBRU ASTRa Study Group
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Clinical Research and Public Health Immunology Infectious disease Microbiology

Rare variable M. tuberculosis antigens induce predominant Th17 responses in human infection

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Abstract

CD4 T cells are essential for immunity to M tuberculosis (Mtb), and emerging evidence indicates that IL-17–producing Th17 cells contribute to immunity to Mtb. While identifying protective T cell effector functions is important for TB vaccine design, T cell antigen specificity is also likely to be important. To identify antigens that induce protective immunity, we reasoned that, as in other pathogens, effective immune recognition drives sequence diversity in individual Mtb antigens. We previously identified Mtb genes under evolutionary diversifying selection pressure whose products we term Rare Variable Mtb Antigens (RVMA). Here, in 2 distinct human cohorts with recent exposure to TB, we found that RVMA preferentially induce CD4 T cells that express RoRγt and produce IL-17, in contrast to “classical” Mtb antigens that induce T cells that produce IFN-γ. Together with emerging evidence showing human Th17 responses are associated with prevention of progression to TB disease, our results suggest that RVMA can be valuable antigens in vaccines for those already infected with Mtb to amplify existing antigen-specific Th17 responses to prevent TB disease.

Authors

Paul Ogongo, Liya Wassie, Anthony Tran, Devin Columbus, Julia Huffaker, Lisa Sharling, Gregory Ouma, Samuel Gurrion Ouma, Kidist Bobosha, Cecilia S. Lindestam Arlehamn, Neel R. Gandhi, Sara C. Auld, Jyothi Rengarajan, Cheryl L. Day, Artur Queiroz, Mariana Araújo-Pereira, Eduardo Fukutani, Bruno B. Andrade, John D. Altman, Henry M. Blumberg, Joel D. Ernst, the TBRU ASTRa Study Group

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Figure 3

Antigen-activated cells express markers of Th17 and Th1 cells upon stimulation with RVMA and classical antigens, respectively.

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Antigen-activated cells express markers of Th17 and Th1 cells upon stimu...
Cryopreserved PBMC from participants in Cohort 1 were stimulated with antigens for a total of 20 hours in the presence of costimulatory antibodies anti-CD28 and anti-CD49d and anti-CD40 blocking antibody without protein transport inhibitors, and antigen-activated cells were identified by CD154 surface expression on CD4+ T cells. (A) Representative flow cytometry plots. (B) CD154 surface expression on CD4+ T cells; CD154+ was used to identify antigen-activated T cells. (C and D) Expression of Th cell lineage-defining transcription factors (RORγT = Th17 and T-bet = Th1) (C) and expression of chemokine receptors (CCR6 = Th17 marker) and (CXCR3 = Th1 marker) on antigen-activated T cells (D). Wilcoxon matched pairs test was used.

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