Elizabeth A Miller1, Ramya Gopal, Vanessa Valdes, Jeffrey S Berger, Nina Bhardwaj, Meagan P O'Brien. 1. aDivision of Infectious Diseases, Department of Medicine bDivision of Hematology and Oncology, Hess Center for Science and Medicine, Icahn School of Medicine at Mount Sinai cDivision of Cardiology, Department of Medicine, New York University School of Medicine, New York, New York, USA.
Abstract
OBJECTIVE: Plasma soluble CD40 ligand (sCD40L) is increased during HIV-1 infection, but it is unknown whether it circulates in monomeric or multimeric forms, and whether the circulating forms have differential effects on myeloid dendritic cell function and adaptive regulation. DESIGN: sCD40L forms were measured in plasma samples from HIV-infected donors. The effects of sCD40L forms on dendritic cell function were measured in vitro. METHODS: To delineate which forms of sCD40L are present in plasma from HIV-infected donors, immunoblots were performed following enrichment of plasma for medium and low-abundance proteins. Dendritic cells from seronegative donors were exposed to multiple forms of sCD40L prior to Toll-like receptor stimulation and dendritic cell function and adaptive regulation was assessed in vitro. RESULTS: Monomeric and multimeric forms of sCD40L were identified in plasma from antiretroviral therapy-treated HIV-infected donors. Although monomeric and multimeric forms of sCD40L had differential effects on dendritic cell activation when given alone, both strongly suppressed secretion of the Th1 skewing cytokine, interleukin-12, upon subsequent Toll-like receptor stimulation. Furthermore, dendritic cells exposed to both monomeric and multimeric sCD40L induced regulatory T-cell formation and T-cell anergy. CONCLUSION: Elevated sCD40L during HIV infection impairs dendritic cell function, contributing to innate and adaptive immune dysfunction. Antiretroviral adjunctive therapies that decrease sCD40L may provide immune modulatory benefits.
OBJECTIVE: Plasma soluble CD40 ligand (sCD40L) is increased during HIV-1 infection, but it is unknown whether it circulates in monomeric or multimeric forms, and whether the circulating forms have differential effects on myeloid dendritic cell function and adaptive regulation. DESIGN:sCD40L forms were measured in plasma samples from HIV-infected donors. The effects of sCD40L forms on dendritic cell function were measured in vitro. METHODS: To delineate which forms of sCD40L are present in plasma from HIV-infected donors, immunoblots were performed following enrichment of plasma for medium and low-abundance proteins. Dendritic cells from seronegative donors were exposed to multiple forms of sCD40L prior to Toll-like receptor stimulation and dendritic cell function and adaptive regulation was assessed in vitro. RESULTS: Monomeric and multimeric forms of sCD40L were identified in plasma from antiretroviral therapy-treated HIV-infected donors. Although monomeric and multimeric forms of sCD40L had differential effects on dendritic cell activation when given alone, both strongly suppressed secretion of the Th1 skewing cytokine, interleukin-12, upon subsequent Toll-like receptor stimulation. Furthermore, dendritic cells exposed to both monomeric and multimeric sCD40L induced regulatory T-cell formation and T-cell anergy. CONCLUSION: Elevated sCD40L during HIV infection impairs dendritic cell function, contributing to innate and adaptive immune dysfunction. Antiretroviral adjunctive therapies that decrease sCD40L may provide immune modulatory benefits.
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