Abstract

Abstract Staphylococcal bacteria are a common cause of skin infections in mice and humans. γδ T cells and the cytokine IL-17 are important in controlling these infections. To test roles for IL-17 in autoimmune Ets1 knockout (KO) mice, we generated double knockout (DKO) mice lacking both Ets1 and IL-17RA. We found that DKO mice develop worse autoimmune disease than Ets1 KO mice and are also susceptible to spontaneous Staphylococcus xylosus skin infections. While IL-17RA KO mice also develop skin lesions, these lesions are found at a higher rate and increased severity in DKO mice. Furthermore, exogenous infection of DKO skin with bioluminescent Staphylococcus aureus results in a failure to clear the bacteria, while IL-17RA KO mice are able to clear. Given that γδ T cells are important in controlling Staph skin infections, we examined these populations and found that both Ets1 KO and DKO mice lack the dendritic epidermal T cells (DETC), while other γδ T cell subsets are present. Further analysis showed that DETC progenitors are present in the fetal thymus of Ets1 KO mice, but DETC are missing from the skin of P5 and adult mice lacking Ets1. We hypothesized that loss of DETC (due to absence of Ets1) might cooperate with loss of IL-17 signaling (due to loss of IL-17RA) to create susceptibility to skin infections. To determine if DETC have a specific contribution to the skin immune response to Staphylococcal bacteria, we depleted DETC from wild-type mice using antibody against TCR Vγ5 followed by S. aureus infection. We found that DETC are not required to clear skin Staph infections, since depleted mice cleared with the same kinetics as non-depleted mice. Studies are in progress to further examine the roles of other γδ T cell populations in clearance of skin Staph infections. Supported by grant from NIH (R01 AI122720)

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