Xiao‐Dan Yao scite author profile

We previously demonstrated that delivery of CpG oligodeoxynucleotide (ODN) to vaginal mucosa induced an innate mucosal antiviral state that protected against intravaginal challenge with herpes simplex virus (HSV)-2. We report that mucosal, but not systemic, delivery of ligands for Toll-like receptor (TLR)-3, but not TLR4, induced protection against genital HSV-2 challenge that was not accompanied by the local inflammation and splenomegaly seen after treatment with CpG ODN. Surprisingly, TLR4 messenger (m) RNA expression was shown to be higher than that of TLR3 or TLR9 in murine genital mucosa. Similarly, murine RAW264.7 cells were shown to express more mRNA for TLR4 than TLR3 or TLR9, yet treatment of these cells with double-stranded RNA provided greater protection than lipopolysaccharide or CpG ODN. These results indicate that TLR3 ligand induces a more potent antiviral response than TLR4 and TLR9 ligands and may be a safer means of protecting against sexually transmitted viral infections.

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

Henrick

Yao

Rosenthal

2015

Front. Immunol.

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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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Differential induction of innate anti-viral responses by TLR ligands against Herpes simplex virus, type 2, infection in primary genital epithelium of women

et al. 2009

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Xiao‐Dan Yao

Toll-like receptor expression and responsiveness are increased in viraemic HIV-1 infection

Toll‐Like Receptor (TLR)–3, but Not TLR4, Agonist Protects against Genital Herpes Infection in the Absence of Inflammation Seen with CpG DNA

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

Differential induction of innate anti-viral responses by TLR ligands against Herpes simplex virus, type 2, infection in primary genital epithelium of women

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