Parallel Recovery of Epidermal Antigen-Presenting Cell Activity and Contact Hypersensitivity Responses in Mice Exposed to Ultraviolet Irradiation: The Role of a Prostaglandin-Dependent Mechanism

Contact hypersensitivity (CH) responsiveness to 2-4-dinitro-1-fluorobenzene (DNFB) is depressed in mice that are sensitized through skin sites exposed to ultraviolet radiation (UVR). This is partially due to a reduction in antigen-presenting cell (APC) activity within UVR-exposed skin, a condition marked by a decrease in the density of ATPase/Ia-positive epidermal cells. The purpose of this study was to correlate the histological and functional recovery of APC activity in the skin of C3H mice exposed to low-dose (4 × 450 J/m2) or high-dose (1 × 15 kJ/m2) UVR with the normalization of CH responsiveness. Skin biopsy specimens taken at various intervals after UVR exposure revealed a rapid recovery in the density of ATPase/Ia-positive cells: about 70% of normal by 3 days, and normal after 5 days. Functional analyses showed that lymph node cells obtained from donors that were sensitized with DNFB 3 days after UVR treatment transferred normal ear-swelling responsiveness to nonprimed recipients, thus indicating that APC activity in UVR-exposed skin paralleled the recovery of ATPase/Ia-positive epidermal cells. This suggested that an alternative mechanism causes the persistent depression of CH in mice exposed to UVR. Mice pretreated with indomethacin prior to UVR exposure demonstrated a capacity to elicit CH responses to DNFB, which paralleled the histological and functional recovery of APC in the skin (i.e., normal CH responses were elicited 3 days after exposure to UVR). We conclude from this study that APC activity in the skin recovers rapidly after exposure to UVR, and that a PG-dependent mechanism is responsible for many of the persistent and systemic effects that cause a depression in the CH responsiveness of mice treated with UVR.