IFN-α/β receptor signaling promotes regulatory T cell development and function under stress conditions

A Metidji, SA Rieder, DD Glass, I Cremer… - The Journal of …, 2015 - journals.aai.org
A Metidji, SA Rieder, DD Glass, I Cremer, GA Punkosdy, EM Shevach
The Journal of Immunology, 2015journals.aai.org
Type I IFNs are a family of cytokines with antiviral and immunomodulatory properties.
Although the antiviral effects of IFNs are well characterized, their immunomodulatory
properties are less clear. To specifically address the effects of type I IFNs on T regulatory
cells (Tregs), we studied mixed bone marrow chimeras between wild-type and IFN-α/β
receptor (IFNAR) knockout (KO) mice, and heterozygous female mice expressing a Treg-
specific deletion of the IFNAR. In these two models, IFNAR signaling promotes the …
Abstract
Type I IFNs are a family of cytokines with antiviral and immunomodulatory properties. Although the antiviral effects of IFNs are well characterized, their immunomodulatory properties are less clear. To specifically address the effects of type I IFNs on T regulatory cells (Tregs), we studied mixed bone marrow chimeras between wild-type and IFN-α/β receptor (IFNAR) knockout (KO) mice, and heterozygous female mice expressing a Treg-specific deletion of the IFNAR. In these two models, IFNAR signaling promotes the development of the Treg lineage in the thymus and their survival in the periphery. IFNAR KO Tregs had a higher expression of the proapoptotic gene Bim and higher frequency of active caspase-positive cells. IFNAR KO Tregs from chimeric mice displayed a more naive phenotype, accompanied by lower levels of CD25 and phosphorylated STAT5. Therefore, in Tregs, IFNAR signaling may directly or indirectly affect phosphorylation of STAT5. In mixed chimeras with Scurfy fetal liver, Tregs derived from IFNAR KO bone marrow were unable to control T effector cell activation and tissue inflammation. Under stress conditions or in a competitive environment, IFNAR signaling may be required to maintain Treg homeostasis and function.
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