Pharmacological Inhibition of PPARy Boosts HIV Reactivation and Th17 Effector Functions, While Preventing Progeny Virion Release and de novo Infection.

Q1 Medicine
Pathogens and Immunity Pub Date : 2020-09-30 eCollection Date: 2020-01-01 DOI:10.20411/pai.v5i1.348
Delphine Planas, Augustine Fert, Yuwei Zhang, Jean-Philippe Goulet, Jonathan Richard, Andrés Finzi, Maria Julia Ruiz, Laurence Raymond Marchand, Debashree Chatterjee, Huicheng Chen, Tomas Raul Wiche Salinas, Annie Gosselin, Eric A Cohen, Jean-Pierre Routy, Nicolas Chomont, Petronela Ancuta
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引用次数: 10

Abstract

The frequency and functions of Th17-polarized CCR6+RORyt+CD4+ T cells are rapidly compromised upon HIV infection and are not restored with long-term viral suppressive antiretroviral therapy (ART). In line with this, Th17 cells represent selective HIV-1 infection targets mainly at mucosal sites, with long-lived Th17 subsets carrying replication-competent HIV-DNA during ART. Therefore, novel Th17-specific therapeutic interventions are needed as a supplement of ART to reach the goal of HIV remission/cure. Th17 cells express high levels of peroxisome proliferator-activated receptor gamma (PPARy), which acts as a transcriptional repressor of the HIV provirus and the rorc gene, which encodes for the Th17-specific master regulator RORyt. Thus, we hypothesized that the pharmacological inhibition of PPARy will facilitate HIV reservoir reactivation while enhancing Th17 effector functions. Consistent with this prediction, the PPARy antagonist T0070907 significantly increased HIV transcription (cell-associated HIV-RNA) and RORyt-mediated Th17 effector functions (IL-17A). Unexpectedly, the PPARy antagonism limited HIV outgrowth from cells of ART-treated people living with HIV (PLWH), as well as HIV replication in vitro. Mechanistically, PPARy inhibition in CCR6+CD4+ T cells induced the upregulation of transcripts linked to Th17-polarisation (RORyt, STAT3, BCL6 IL-17A/F, IL-21) and HIV transcription (NCOA1-3, CDK9, HTATIP2). Interestingly, several transcripts involved in HIV-restriction were upregulated (Caveolin-1, TRIM22, TRIM5α, BST2, miR-29), whereas HIV permissiveness transcripts were downregulated (CCR5, furin), consistent with the decrease in HIV outgrowth/replication. Finally, PPARy inhibition increased intracellular HIV-p24 expression and prevented BST-2 downregulation on infected T cells, suggesting that progeny virion release is restricted by BST-2-dependent mechanisms. These results provide a strong rationale for considering PPARy antagonism as a novel strategy for HIV-reservoir purging and restoring Th17-mediated mucosal immunity in ART-treated PLWH.

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药物抑制PPARy促进HIV再激活和Th17效应物功能,同时防止子代病毒粒子释放和新生感染。
th17极化的CCR6+RORyt+CD4+ T细胞的频率和功能在HIV感染时迅速受损,并且不能通过长期病毒抑制性抗逆转录病毒治疗(ART)恢复。与此一致的是,Th17细胞代表了主要在粘膜部位的选择性HIV-1感染靶点,在抗逆转录病毒治疗期间,Th17亚群携带有复制能力的HIV-DNA。因此,需要新的th17特异性治疗干预措施作为ART的补充,以达到HIV缓解/治愈的目标。Th17细胞表达高水平的过氧化物酶体增殖物激活受体γ (pparty),它作为HIV病毒和rorc基因的转录抑制因子,编码Th17特异性主调节因子RORyt。因此,我们假设pparty的药理学抑制将促进HIV库的再激活,同时增强Th17效应物的功能。与这一预测一致,pparty拮抗剂T0070907显著增加HIV转录(细胞相关HIV- rna)和roryt介导的Th17效应物功能(IL-17A)。出乎意料的是,pparty拮抗剂限制了art治疗的HIV感染者(PLWH)细胞的HIV生长,以及HIV在体外的复制。从机制上讲,pparty抑制CCR6+CD4+ T细胞诱导th17极化相关转录物(RORyt, STAT3, BCL6 IL-17A/F, IL-21)和HIV转录物(NCOA1-3, CDK9, HTATIP2)的上调。有趣的是,一些参与HIV限制的转录本上调(Caveolin-1, TRIM22, TRIM5α, BST2, miR-29),而HIV许可转录本下调(CCR5, furin),这与HIV生长/复制的减少一致。最后,pparty抑制增加了细胞内HIV-p24的表达,并阻止了感染T细胞上BST-2的下调,这表明子代病毒粒子的释放受到BST-2依赖机制的限制。这些结果为考虑PPARy拮抗剂作为一种新的策略来清除hiv病毒库和恢复经art治疗的PLWH中th17介导的粘膜免疫提供了强有力的理由。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Pathogens and Immunity
Pathogens and Immunity Medicine-Infectious Diseases
CiteScore
10.60
自引率
0.00%
发文量
16
审稿时长
10 weeks
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