Parallel suppression of retinal and pineal melatonin synthesis by retinally mediated light.

We have recently shown that light, over a narrow range of low intensities suppresses the activity of the enkephalin-immunoreactive amacrine cells of the chicken retina. In this paper, we show that over the same range of low light intensities the rate of melatonin synthesis in both the retina and the pineal of the chicken is suppressed. We further show that the effects of light on the pineal at these low intensities are mediated by the retina and not by direct actions on the pineal. Combined with our evidence that dopaminergic pathways within the retina are involved in controlling the state of activity of the pineal, these results suggest, but do not prove, that the change in state of a microcircuit within the retina involving the photoreceptors, dopaminergic amacrine cells and enkephalin-immunoreactive amacrine cells may be causally related to changes in the state of the pineal.