HSV-2 increases replication of HIV in human T cells

Abstract

Abstract Herpes simplex virus 2 (HSV-2) infection is a major factor driving the global HIV epidemic, leading to increased HIV plasma viral loads (PVLs) and transmission. Previous studies which focused on mucosal responses cannot explain the observed effects of HSV-2 on HIV PVLs. We sought to determine mechanisms by which HSV-2 increases HIV PVLs. CD4 T cells are recruited to sites of HSV-2 lesions and HSV-2 can infect these cells. Phenotyping of CD4 cells infected with HSV-2 in vitro suggested a preference for T follicular helper cells, an HIV latent reservoir. HSV infection of latently infected Jurkat-2D10 cells resulted in a 10-fold increase in HIV ltr expression. After exposing CD4 cells from HIV+ donors to HSV-2, HIV p24 was detected only in cells expressing HSV-2 glycoprotein B (gB), a marker of productive HSV-2 infection. Bulk and single cell RNAseq on FACS-purified, HSV-infected and uninfected CD4 cells demonstrated reduced expression of HIV restriction factors in HSV+ cells; HSV exposed but uninfected cells exhibited higher expression of interferon response genes, potentially explaining their resistance to HIV reactivation. HSV+ cells exhibited increased expression of the lncRNA MALAT1, which may promote HIV reactivation through epigenetic modification, and HSV infection of 2D10 and CD4 cells led to decreased histone deacetylase activity. Transfection of 2D10 cells with HSV protein VP16 resulted in significantly increased HIV ltr and MALAT1 gene expression, and reduced epigenetic silencing marks. HIV proteins were also increased by proteomic analyses. These findings identify several mechanisms by which HSV-2 directly triggers HIV reactivation, such as the up-regulation of the lncRNA MALAT1. Supported by grants from the NIH (R01 AI134367, T32 AI007501, T32 GM007288)