Near-ultraviolet radiation suppresses melatonin synthesis in the chicken retina - A role of dopamine

摘要

Effects of near-ultraviolet radiation (UV-A; 325-390 nm, peak at 365 nm) on melatonin content and activity of serotonin N-acetyltransferase (AA-NAT; a key regulatory enzyme in melatonin biosynthesis) were examined in the retina of chickens. Acute exposure of dark-adapted animals to UV-A light produced a marked decline in melatonin content and AA-NAT activity of the retina. The magnitude of the observed changes was dependent upon duration of the light pulse and age of chickens, with 1-2-week old birds being more sensitive to UV-A action than 6-7-week old ones. The decrease in the nocturnal AA-NAT activity evoked by a 5-min UV-A pulse gradually deepened during the first 30 min after the return of chickens to constant darkness, then the enzyme activity began to rise, reaching nearly complete restoration within 2.5 hr. Systemic administration to chickens of alpha-methyl-p-tyrosine tan inhibitor of catecholamine synthesis; 0.3 g/kg) blocked the suppressive effect of W-A light on retinal AA-NAT activity. Haloperidol, sulpiride (blockers of D2-family of dopamine (DA) receptors) and 2-chloro-11-(4-methylpiperazino)dibenz[bf] (an antagonist of D-4-DA receptors), given intraocularly (1-100 nmol/eye) prevented the UV-A light-evoked decrease in AA-NAT activity in the chicken retina in a dose-dependent manner, while raclopride (300 nmol/eye), an antagonist of D-2/D-3-DA receptors, was ineffective. In dark-adapted chickens exposure to UV-A light increased the DA content of the retina. It is concluded that UV-A radiation, similar to visible light, potently suppresses melatonin biosynthesis in the retina of chicken, with a D-4-dopaminergic signal playing the role of an intermediate in this action. (C) 2000 Elsevier Science Inc. All rights reserved. [References: 65]