PLA2G1B is involved in CD4 anergy and CD4 lymphopenia in HIV-infected patients
Julien Pothlichet, … , Gérard Lambeau, Jacques Thèze
Julien Pothlichet, … , Gérard Lambeau, Jacques Thèze
Published March 3, 2020
Citation Information: J Clin Invest. 2020;130(6):2872-2887. https://doi.org/10.1172/JCI131842.
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Research Article AIDS/HIV Immunology Article has an altmetric score of 47

PLA2G1B is involved in CD4 anergy and CD4 lymphopenia in HIV-infected patients

Abstract

The precise mechanism leading to profound immunodeficiency of HIV-infected patients is still only partially understood. Here, we show that more than 80% of CD4+ T cells from HIV-infected patients have morphological abnormalities. Their membranes exhibited numerous large abnormal membrane microdomains (aMMDs), which trap and inactivate physiological receptors, such as that for IL-7. In patient plasma, we identified phospholipase A2 group IB (PLA2G1B) as the key molecule responsible for the formation of aMMDs. At physiological concentrations, PLA2G1B synergized with the HIV gp41 envelope protein, which appears to be a driver that targets PLA2G1B to the CD4+ T cell surface. The PLA2G1B/gp41 pair induced CD4+ T cell unresponsiveness (anergy). At high concentrations in vitro, PLA2G1B acted alone, independently of gp41, and inhibited the IL-2, IL-4, and IL-7 responses, as well as TCR-mediated activation and proliferation, of CD4+ T cells. PLA2G1B also decreased CD4+ T cell survival in vitro, likely playing a role in CD4 lymphopenia in conjunction with its induced IL-7 receptor defects. The effects on CD4+ T cell anergy could be blocked by a PLA2G1B-specific neutralizing mAb in vitro and in vivo. The PLA2G1B/gp41 pair constitutes what we believe is a new mechanism of immune dysfunction and a compelling target for boosting immune responses in HIV-infected patients.

Authors

Julien Pothlichet, Thierry Rose, Florence Bugault, Louise Jeammet, Annalisa Meola, Ahmed Haouz, Frederick Saul, David Geny, José Alcami, Ezequiel Ruiz-Mateos, Luc Teyton, Gérard Lambeau, Jacques Thèze

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Figure 5

Effect of PLA2G1B on CD4+ T cell subpopulations, specificity, and reversion.

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Effect of PLA2G1B on CD4+ T cell subpopulations, specificity, and revers...
(A) Dose effect of PLA2G1B (IL-7, n = 4; IL-2, n = 3; IL-4, n = 5) and (B) of 1% HD plasma (IL-7, n = 4; IL-2 and IL-4, n = 3) and VP plasma (n = 5) on IL-2–, IL-4–, and IL-7–induced p-STAT NT in CD4+ T cells. (C) Effects of PLA2G1B (IL-7, n = 4; IFN-α, n = 5) and (D) plasma (HD [n = 4] or VP [n = 5], 1%) on IL-7–induced p-STAT5 NT and IFN-α–induced p-STAT1 NT in CD4+ T cells (n = 5 donors). (E) The effect of PLA2G1B (30 minutes) on IL-7–induced p-STAT5 NT was analyzed in total (HD T CD4+:IL-7), naive (HD T CD4+ CD45RA+:IL-7), and memory (HD T CD4+ CD45RA:IL-7) CD4+ T cells from the same donor in response to IL-7 (n = 3 donors). (F) Percentage of CD127+ cells among and (G) CD127 expression (Δ anti-CD127 MFI minus isotype control MFI) on CD45RA+ and CD45RA CD4+ T cells after treatment with 1 μM WT or H48Q PLA2G1B (see gating strategy in Supplemental Figure 3A, n = 3 donors). (H) Effect of PLA2G1B (250 nM) on aMMD induction in CD4+ T cells (n = 5) and CD8+ T cells (n = 8) and (I) on IL-7–induced p-STAT5 NT in CD8+ T cells (dose effect, n = 3). In AI, results are shown as the mean ± SD. *P < 0.05; **P < 0.01; ***P < 0.001 by 1-way ANOVA (BD) and 2-way ANOVA (E) with Tukey’s correction for multiple comparisons or by the Mann-Whitney 2-tailed unpaired t test (H). (J) Anti-PLA2G1B treatment accelerates the recovery of a functional p-STAT5 NT response of PLA2G1B-treated CD4+ T cells to IL-7. The results of 1 representative experiment of 3 are presented.