Type I interferon inhibits acute IL-5 and IL-13 expression in human memory CD4+ T cells (125.12)

Abstract

Abstract Type I Interferon (IFN-α/β) is an innate cytokine important for fighting infections and is used to treat hepatitis C infection and multiple sclerosis, among other diseases. Although the innate role of this cytokine has been studied extensively, our group has shown that IFN-α/β plays a role in shaping the adaptive immune response in humans. Recently, we demonstrated that IFN-α/β inhibits Th2 development by regulating mRNA and protein levels of GATA3. Regulation of GATA3 in turn suppresses Th2 cytokine production, without effecting IFN-γ production. In addition to blocking Th2 development, we now demonstrate an acute inhibition of human memory T cell function upon treatment with IFN-α/β. Human memory CD4+ T cells acutely activated with anti-CD3 in the presence of IFN-α/β resulted in reduced mRNA levels of Th2 cytokine genes, IL5 and IL13, but did not effect IL4 expression. GATA3 levels were not affected, suggesting a GATA3-independent mechanism. Further experiments have determined that this regulatory mechanism does not require new protein synthesis. This mechanism seems to be specific to IFN-α/β, as neither IFN-γ nor IFN-λ treatment were able to repress Th2 cytokine mRNA expression to the extent of IFN-α/β. This study has uncovered an additional level of regulation that blocks early TCR signaling events that affect Th2 function. This novel pathway suggests that treatment of atopic asthmatic individuals with IFN-α/β can regulate both Th2 development and memory Th2 function.