Keratinocytes Counteract UVB-Induced Immunosuppression in Mice through HIF-1a Signaling

Abstract

The transcription factor HIF-1a regulates cellular metabolism under hypoxia but also immune responses and UVB-induced skin reactions. In keratinocytes (KCs), HIF-1a is an environmental sensor orchestrating the adaptation to environmental changes. In this study, we investigated the role of HIF-1a in KCs for skin reactions to acute and chronic UVB exposure in mice. The function of HIF-1a in KCs under UVB exposure was analyzed in KC-specific HIF-1a conditional knockout (cKO) mice. cKO mice were hypersensitive to acute high-dose UVB irradiation compared with wild-type mice, displaying increased cell death and delayed barrier repair. After chronic low-dose UVB treatment, cKO mice also had stronger epidermal damage but reduced infiltration of dermal macrophages and T helper cells compared with wild-type mice. Irradiated cKO mice revealed accumulation of regulatory lymphocytes in dorsal skin-draining lymph nodes compared with wild-type and unirradiated mice. This was reflected by an augmented IL-10 release of lymph node cells and a weaker contact hypersensitivity reaction to DNFB in UVB-exposed cKO mice than in wild-type and unirradiated controls. In summary, we found that KC-specific HIF-1a expression is crucial for adaptation to UVB exposure and inhibits the development of UVB-induced immunosuppression in mice. Therefore, HIF-1a signaling in KCs could ameliorate photoaging-related skin disorders.