US EPA

4231830 

Journal Article 

UV-associated decline in systemic folate: implications for human nutrigenetics, health, and evolutionary processes 

Lucock, M; Beckett, E; Martin, C; Jones, P; Furst, J; Yates, Z; Jablonski, NG; Chaplin, G; Veysey, M 

2017 

Yes 

American Journal of Human Biology
ISSN: 1042-0533
EISSN: 1520-6300 

29 

2 

English 

27771938 

10.1002/ajhb.22929 

WOS:000397407000145 

OBJECTIVES: The purpose of this study was to examine whether UV exposure alters folate status according to C677T-MTHFR genotype, and to consider the relevance of this to human health and the evolutionary model of skin pigmentation.

METHODS: Total Ozone Mapping Spectrometer (TOMS) satellite data were used to examine surface UV-irradiance, as a marker of UV exposure, in a large (n = 649) Australian cross-sectional study population. PCR/RFLP analysis was used to genotype C677T-MTHFR.

RESULTS: Overall, cumulative UV-irradiance (42 and 120 days pre-clinic) was significantly negatively related to red cell folate (RCF) levels. When the cohort was stratified by MTHFR-C677T genotype, the relationship between UV-irradiance (42 days pre-clinic) and RCF remained significant only in the cohorts containing carriers of the T allele. Statistically significant z-score statistics and interaction terms from genotype and UV-irradiance (p-interaction) demonstrated that genotype did modify the effect of UV-irradiance on RCF, with the largest effect of UV being demonstrated in the 677TT-MTHFR subjects.

CONCLUSIONS: Data provide strong evidence that surface UV-irradiance reduces long-term systemic folate levels, and that this is influenced by the C677T-MTHFR gene variant. We speculate this effect may be due to 677TT-MTHFR individuals containing more 5,10CH2-H4PteGlu, and that this folate form may be particularly UV labile. Since UV-irradiance lowers RCF in an MTHFR genotype-specific way, there are likely implications for human health and the evolution of skin pigmentation.