Melanin and the regulation of mammalian photoreceptor topography.

Melanin, or products directly associated with it, regulates the maturation of the neural retina because in hypopigmented mammals the central retina fails to develop fully. To determine whether this deficit is reflected in the distribution of photoreceptors, their topography has been studied in the retinae of normally reared pigmented and albino ferrets and animals reared under reduced light conditions. In both strains, the general distribution of rods and cones was similar to that in the cat, cone density peaking in the central retina and rod density peaking in an annulus around the area centralis. The cone population was organized in the form of an orderly mosaic whose regularity was measured at a wide range of retinal eccentricities. No differences were found in cone numbers or their mosaic distribution between pigmented and albino strains, either at the area centralis or at more peripheral regions. In both cases order within the cone mosaic was independent of density or retinal eccentricity. In the albinos there was a significant deficit in the number of rods at all retinal locations when compared with rod numbers in the pigmented animals. There were no differences between normally reared and dark-reared animals in this respect either within or between the strains. Therefore, the albino gene must have a selective and specific effect on the development of this cell type in the outer retina. Ganglion cells and rods are both affected by the albino gene, while cones are not. Because cones and ganglion cells are generated during the same period and rods are generated later, the albino gene cannot be acting during a particular developmental time window. Because the cone mosaic was normal in the albinos, in spite of a large rod deficit, the factors that regulate the spacing of cones cannot depend in any significant manner upon the later generation and subsequent addition of rods to the outer retina.