Testosterone regulation of pigmentation in scrotal epidermis of the rat

Abstract

The effects of testosterone on melanocyte number, morphology, melanin content and tyrosinase activity were studied in epidermis from several body regions of the black-pelted Long-Evans rat. Determinations were made in epidermal sheets processed for histochemical analysis by incubation in the presence of the melanin precursor, 3,4-dihydroxyphenylalanine (DOPA). Melanin content, cell volume, dendritic branching and tyrosinase activity of scrotal epidermal melanocytes all decreased progressively with time following castration. Daily testosterone injection, begun 14 days after castration, increased tyrosinase activity in 4 days, and dendritic branching in 6 days, of treatment; melanin content, cell volume and enzyme activity were restored to normal intact levels within 14 days of treatment, at which time newly synthesized melanin was evident in keratinocytes. The total number of scrotal epidermal melanocytes was not changed by castration or testosterone administration. Neither castration nor testosterone replacement affected any parameter of epidermal melanocytes in preputial, perianal or eyelid skin which, together with the scrotum, are the animals' only pigmented areas. Androgen control of epidermal pigmentation in the male rat is therefore specific for the scrotum and is manifested through regulation of melanin synthesis in stable populations of melanocytes rather than through increases in numbers of melanocytes.