6-Tetrahydrobiopterin functions as a UVB-light switch for de novo melanogenesis.

(6R)-L-erythro 5,6,7,8-tetrahydrobiopterin (6-BH4) and its 7-isomer (7-BH4) function as uncompetitive inhibitors of human and mushroom tyrosinases. Stoichiometry for the binding of [3H]-labeled 6-BH4 to both tyrosinases has been established as 1:1. Stable complexation of 6-BH4 to tyrosinase appears to involve a hydrophilic conserved glutamic acid (Glu131) with a pKa = 4.7. Photo-oxidation by UVB-light and O2 reverses the inhibition of tyrosinase by 6-BH4 and 7-BH4 with the 6-BH4/tyrosinase complex being four-fold more photolabile than 7-BH4/tyrosinase. The photo-oxidation of 6-BH4 by UVB-light can be assessed spectrophotometrically with this reaction yielding 7,8-dihydroxanthopterin as the final product, 7,8-Dihydroxanthopterin neither binds to nor inhibits tyrosinase. By contrast, UVA light does not catalyze the photodegradation of 6-BH4. Taken together, our results indicate that the photo-oxidation of the tetrahydrobiopterins by UVB may represent a photo-switch in the regulation of tyrosinase activity to promote de novo melanogenesis.

Pteridines in the control of pigmentation.

The influence of UVB irradiation on the metabolic pathway for the production of L-tyrosine from L-phenylalanine in the human epidermis has been examined in 12 healthy volunteers with photo skin types I-VI (Fitzpatrick classification). This metabolic pathway involves the induction of GTP-cyclohydrolase 1 (GTP-CH-1), the rate-limiting enzyme for de novo synthesis of (6R)L-erythro-5,6,7,8-tetrahydrobiopterin (6-BH4). This essential cofactor controls the production of L-tyrosine from L-phenylalanine via phenylalanine hydroxylase (PAH). The de novo synthesis of 6-BH4 depends on the induction of GTP-CH-1, e.g., by tumor necrosis factor-alpha (TNF alpha). Epidermal suction blister tissues were taken before (0 h) and after (24 and 72 h) UVB exposure with a standardized dosage [1 minimal erythema dose (MED)]. In all cases, there was a significant increase in TNF alpha release, GTP-CH-1 activity, total 6-biopterin level, and PAH activity, indicative of enhanced L-tyrosine production. The response of this metabolic cascade over baseline activities was pronounced in fair photo skin types (I-III) compared to dark skin (IV-VI). Taken together, our results suggest that UVB can control the direct supply of L-tyrosine in the epidermis, and this process may represent an important factor in de novo melanogenesis.