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HIV-1 Structural Proteins Serve As PAMPs for TLR2 Heterodimers Significantly Increasing Infection and Innate Immune Activation

Overview
Journal Front Immunol
Date 2015 Sep 9
PMID 26347747
Citations 53
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Abstract

Immune activation is critical to HIV infection and pathogenesis; however, our understanding of HIV innate immune activation remains incomplete. Recently we demonstrated that soluble TLR2 (sTLR2) physically inhibited HIV-induced NFκB activation and inflammation, as well as HIV-1 infection. In light of these findings, we hypothesized that HIV-1 structural proteins may serve as pathogen-associated molecular patterns (PAMPs) for cellular TLR2 heterodimers. These studies made use of primary human T cells and TZMbl cells stably transformed to express TLR2 (TZMbl-2). Our results demonstrated that cells expressing TLR2 showed significantly increased proviral DNA compared to cells lacking TLR2, and mechanistically this may be due to a TLR2-mediated increased CCR5 expression. Importantly, we show that HIV-1 structural proteins, p17, p24, and gp41, act as viral PAMPs signaling through TLR2 and its heterodimers leading to significantly increased immune activation via the NFκB signaling pathway. Using co-immunoprecipitation and a dot blot method, we demonstrated direct protein interactions between these viral PAMPs and TLR2, while only p17 and gp41 bound to TLR1. Specifically, TLR2/1 heterodimer recognized p17 and gp41, while p24 lead to immune activation through TLR2/6. These results were confirmed using TLR2/1 siRNA knock down assays which ablated p17 and gp41-induced cellular activation and through studies of HEK293 cells expressing selected TLRs. Interestingly, our results show in the absence of TLR6, p24 bound to TLR2 and blocked p17 and gp41-induced activation, thus providing a novel mechanism by which HIV-1 can manipulate innate sensing. Taken together, our results identified, for the first time, novel HIV-1 PAMPs that play a role in TLR2-mediated cellular activation and increased proviral DNA. These findings have important implications for our fundamental understanding of HIV-1 immune activation and pathogenesis, as well as HIV-1 vaccine development.

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References
1.
Booth A, Fang Y, Fallon J, Yang J, Hildreth J, Gould S . Exosomes and HIV Gag bud from endosome-like domains of the T cell plasma membrane. J Cell Biol. 2006; 172(6):923-35. PMC: 2063735. DOI: 10.1083/jcb.200508014. View

2.
De Francesco M, Baronio M, Fiorentini S, Signorini C, Bonfanti C, Poiesi C . HIV-1 matrix protein p17 increases the production of proinflammatory cytokines and counteracts IL-4 activity by binding to a cellular receptor. Proc Natl Acad Sci U S A. 2002; 99(15):9972-7. PMC: 126609. DOI: 10.1073/pnas.142274699. View

3.
Thacker T, Johnson F . Binding of bovine parvovirus to erythrocyte membrane sialylglycoproteins. J Gen Virol. 1998; 79 ( Pt 9):2163-9. DOI: 10.1099/0022-1317-79-9-2163. View

4.
De Francesco M, Caruso A, Fallacara F, Canaris A, Dima F, Poiesi C . HIV p17 enhances lymphocyte proliferation and HIV-1 replication after binding to a human serum factor. AIDS. 1998; 12(3):245-52. DOI: 10.1097/00002030-199803000-00001. View

5.
Aderem A, Ulevitch R . Toll-like receptors in the induction of the innate immune response. Nature. 2000; 406(6797):782-7. DOI: 10.1038/35021228. View