Cutting Edge: Regulator of G protein signaling-1 selectively regulates gut T cell trafficking and colitic potential
The Journal of Immunology, 2011•journals.aai.org
The RGS1 gene is associated with celiac disease, multiple sclerosis, and type I diabetes,
which are all T cell-mediated pathologies, yet there is no reported analysis of regulator of G
protein signaling (RGS) 1 biology in human T cells. This study shows that RGS1 expression
is substantially higher in T cells from human gut versus peripheral blood and that this can be
exaggerated in intestinal inflammation. Elevated RGS1 levels profoundly reduce T cell
migration to lymphoid-homing chemokines, whereas RGS1 depletion selectively enhances …
which are all T cell-mediated pathologies, yet there is no reported analysis of regulator of G
protein signaling (RGS) 1 biology in human T cells. This study shows that RGS1 expression
is substantially higher in T cells from human gut versus peripheral blood and that this can be
exaggerated in intestinal inflammation. Elevated RGS1 levels profoundly reduce T cell
migration to lymphoid-homing chemokines, whereas RGS1 depletion selectively enhances …
Abstract
The RGS1 gene is associated with celiac disease, multiple sclerosis, and type I diabetes, which are all T cell-mediated pathologies, yet there is no reported analysis of regulator of G protein signaling (RGS) 1 biology in human T cells. This study shows that RGS1 expression is substantially higher in T cells from human gut versus peripheral blood and that this can be exaggerated in intestinal inflammation. Elevated RGS1 levels profoundly reduce T cell migration to lymphoid-homing chemokines, whereas RGS1 depletion selectively enhances such chemotaxis in gut T cells and impairs their colitogenic potential. These findings provide a revised framework in which to view the linkage of RGS1 to inflammatory disease.
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