Sun exposure, vitamin D receptor polymorphisms FokI and BsmI and risk of multiple primary melanoma.

BACKGROUND: Sunlight exposure increases risk of melanoma. Sunlight also potentiates cutaneous synthesis of vitamin D, which can inhibit melanoma cell growth and promote apoptosis. Vitamin D effects are mediated through the vitamin D receptor (VDR). We hypothesized that genetic variation in VDR affects the relationship of sun exposure to risk of a further melanoma in people who have already had one. METHODS: We investigated the interaction between VDR polymorphisms and sun exposure in a population-based multinational study comparing 1138 patients with a multiple (second or subsequent) primary melanoma (cases) to 2151 patients with a first primary melanoma (controls); essentially a case-control study of melanoma in a population of melanoma survivors. Sun exposure was assessed using a questionnaire and interview, and was shown to be associated with multiple primary melanoma. VDR was genotyped at the FokI and BsmI loci and the main effects of variants at these loci and their interactions with sun exposure were analyzed. RESULTS: Only the BsmI variant was associated with multiple primary melanoma (OR=1.27, 95% CI 0.99-1.62 for the homozygous variant genotype). Joint effects analyses showed highest ORs in the high exposure, homozygous variant BsmI genotype category for each sun exposure variable. Stratified analyses showed somewhat higher ORs for the homozygous BsmI variant genotype in people with high sun exposure than with low sun exposure. P values for interaction, however, were high. CONCLUSION: These results suggest that risk of multiple primary melanoma is increased in people who have the BsmI variant of VDR.

Cytotoxic T lymphocyte reactivity to gp100, MelanA/MART-1, and tyrosinase, in HLA-A2-positive vitiligo patients.

Vitiligo is a common depigmentation disorder thought to result from autoimmune destruction of melanocytes. Recent studies suggest a role for cell-mediated immune responses to melanocyte differentiation antigens, including gp100, MelanA/MART-1, and tyrosinase, in vitiligo pathogenesis. This study investigated T cell reactivity to MelanA/MART-1, tyrosinase, and gp100, in HLA-A2-positive patients with vitiligo. Melanocyte-specific T cell responses were measured ex vivo via enzyme-linked immunospot assay following stimulation with MelanA/MART-1, tyrosinase, and modified gp100 epitopes. Antigen-specific T lymphocyte reactivity to gp100 peptides was seen in 15 of 17 (88%) patients, with many demonstrating very high reactivity at levels comparable with those observed with common recall antigens. Reactivity to gp100 was noted to be associated with disease activity. Antigen-specific T lymphocyte reactivity to MelanA/MART-1 and tyrosinase peptides was not observed ex vivo in our patients, and only one patient demonstrated responses to MelanA/MART-1 and tyrosinase peptides following in vitro re-stimulation. Our findings implicate T cell reactivity to gp100 in patients with active disease and support the concept of an immunopathologic mechanism in vitiligo, in which cell-mediated responses to normal melanocyte antigens play a crucial part.