Project description:This SuperSeries is composed of the following subset Series: GSE24037: Salivary cytokine alterations in HIV infection part 1 GSE24064: Salivary cytokine alterations in HIV infection part 2 Refer to individual Series
Project description:Proteomic analysis of cytokines in unstimulated oropharyngeal secretions. Epstein-barr virus (EBV) is a type 1 carcinogen which causes many cancers in humans. Here we explored the cytokine involvement of the EBV replication process in the oropharynx. Cytokine interactomic profiles were geneerated to understand the involved signalling pathways in HIV infected group and the healthy group. Proteome profilers were used to understand the major cytokine expression levels that are related to infection and immune regulation. We analyzed unstimulated oropharyngeal samples (UOPS) from 42 healthy subjects and 72 HIV positive subjects using the R & D Proteome Profiler array panels. No techinical replicates were performed. 14 samples in HIV group without therapy (NHAART group); 58 HIV patients with highly active antiretroviral therapy (HAART group); 42 samples in healthy group
Project description:The susceptibility of macrophages to HIV-1 infection is modulated during monocyte differentiation. IL-27 is an anti-HIV cytokine that also modulates monocyte activation. Here, we present new evidence that IL-27 promotes monocyte differentiation into macrophages that are non-permissive for HIV-1 infection. While IL-27 treatment does not affect expression of macrophage differentiation markers or macrophage biological functions, it confers HIV resistance by down-regulating spectrin beta non-erythrocyte 1 (SPTBN1), a required host factor for HIV-1 infection. IL-27 down-regulates SPTBN1 through a TAK-1-mediated MAPK signaling pathway. Knockdown of SPTBN1 strongly inhibits HIV-1 infection of macrophages; conversely, overexpression of SPTBN1 markedly increases HIV susceptibility of IL-27 treated macrophages. Moreover, we demonstrate that SPTBN1 associates with HIV-1 gag proteins. Collectively, our results underscore the ability of IL-27 to protect macrophages from HIV-1 infection by down-regulating SPTBN1, thus indicating that SPTBN1 is an important host target to reduce HIV-1 replication in one major element of the viral reservoir. 2 samples with different treatments were analyzed. Genes with absolute fold change >= 5 were selected.
Project description:Metabolic changes of immune cells contribute to both physiological and pathophysiological outcomes of immune reactions. How viruses alter the metabolic states of mucosal T cells and the precise mechanisms underlying the persisting immune dysfunction during chronic viral infections are key questions that have not been fully addressed. Here, by comparing transcriptome and salivary metabolome profiles of the uninfected individuals and people living with HIV (PLWH) on treatment, we found a role of polyamine metabolism in immune perturbations of the oral mucosa of HIV+ patients. Flow cytometry analysis confirmed the higher expression of ornithine decarboxylase (ODC-1) and eukaryotic translation initiation factor 5A (EIF5A), the polyamine metabolism intermediates in CD4+ T cells in PLWH. Mechanistic studies using an in vitro human tonsil organoid infection model revealed that HIV infection of activated T cells also resulted in increased polyamine synthesis, which was dependent on the activities of caspase-1, IL-1β, and ODC-1. HIV-1 also led to elevated dysfunctional regulatory T cells (TregDys) /Thelper 17 (Th17) cell ratios as well as heightened expression of ODC-1, EIF5A, and hypusinated EIF5A. Blockade of caspase-1, ODC-1, and EIF5A hypusination and not HIF-1⍺ or NLRP3 reversed the frequency of TregDys showing the direct impact of polyamine pathway in Treg dysfunction during HIV-1 infection. The addition of exogenous polyamines increased TregDys percentages independent of HIV-1 infection in vitro. Finally, oral mucosal TregDys/Th17 ratios and CD4 hyperactivation positively correlated with the increases in salivary putrescine levels, which were found to be elevated in the saliva of PLWH. Thus, by revealing the role of aberrantly increased polyamine synthesis during HIV infection, our study unveils a new mechanism by which chronic viral infections could drive distinct T cell effector programs and Treg dysfunction.
Project description:The susceptibility of macrophages to HIV-1 infection is modulated during monocyte differentiation. IL-27 is an anti-HIV cytokine that also modulates monocyte activation. Here, we present new evidence that IL-27 promotes monocyte differentiation into macrophages that are non-permissive for HIV-1 infection. While IL-27 treatment does not affect expression of macrophage differentiation markers or macrophage biological functions, it confers HIV resistance by down-regulating spectrin beta non-erythrocyte 1 (SPTBN1), a required host factor for HIV-1 infection. IL-27 down-regulates SPTBN1 through a TAK-1-mediated MAPK signaling pathway. Knockdown of SPTBN1 strongly inhibits HIV-1 infection of macrophages; conversely, overexpression of SPTBN1 markedly increases HIV susceptibility of IL-27 treated macrophages. Moreover, we demonstrate that SPTBN1 associates with HIV-1 gag proteins. Collectively, our results underscore the ability of IL-27 to protect macrophages from HIV-1 infection by down-regulating SPTBN1, thus indicating that SPTBN1 is an important host target to reduce HIV-1 replication in one major element of the viral reservoir.
Project description:HIV-infected slow-progressors (SP) represent a heterogeneous group of subjects who spontaneously control HIV infection without treatment for several years while showing moderate signs of disease progression. Here we determined the frequency of SP subjects who showed loss of HIV control within our Canadian Cohort of HIV+ Slow-Progressors and identified the proinflammatory cytokine IL-32 as a robust biomarker for control failure.
Project description:This SuperSeries is composed of the following subset Series: GSE22768: Systems analysis of the Merck Ad5/HIV vaccine reveals robust induction of a core innate immune gene network: in vivo analysis GSE22769: Systems analysis of the Merck Ad5/HIV vaccine reveals robust induction of a core innate immune gene network: in vitro analysis To better understand how innate immune responses to vaccination can lead to lasting protective immunity, we used a systems approach to define immune signatures in humans over 1 wk following MRKAd5/HIV vaccination that predicted subsequent HIV-specific T-cell responses. Within 24 h, striking increases in peripheral blood mononuclear cell gene expression associated with inflammation, IFN response, and myeloid cell trafficking occurred, and lymphocyte-specific transcripts decreased. These alterations were corroborated by marked serum inflammatory cytokine elevations and egress of circulating lymphocytes. Responses of vaccinees with preexisting adenovirus serotype 5 (Ad5) neutralizing antibodies were strongly attenuated, suggesting that enhanced HIV acquisition in Ad5-seropositive subgroups in the Step Study may relate to the lack of appropriate innate activation rather than to increased systemic immune activation. Importantly, patterns of chemoattractant cytokine responses at 24 h and alterations in 209 peripheral blood mononuclear cell transcripts at 72 h were predictive of subsequent induction and magnitude of HIV-specific CD8(+) T-cell responses. This systems approach provides a framework to compare innate responses induced by vectors, as shown here by contrasting the more rapid, robust response to MRKAd5/HIV with that to yellow fever vaccine. When applied iteratively, the findings may permit selection of HIV vaccine candidates eliciting innate immune response profiles more likely to drive HIV protective immunity. Refer to individual Series