Development of amelanotic retinal pigment epithelium in eyes with a tapetum lacidum: melanosome autophagy and termination of melanogenesis

Bovine eyes of embryos and fetuses were examined to determine the developmental processes involved in establishment of the amelanotic retinal pigment epithelium (RPE) which overlies the tapetum lucidum. Melanogenesis was detectable at the optic vesicle stage (Day 28); premelanosomes were visible by electron microscopy in neuroepithelium temporal to the lens placode. Pigmentation of the eye was visible by light microscopy at the optic cup stage (about Day 30) and spread from the lip of the optic cup throughout the entire fundus by the 40th day. Thereafter, pigmentation of the superior temporal fundus diminished and by the 65th day the adult pattern of amelanotic and melanotic RPE was established. Calculations showed that after the 40th day, growth of the eyeball brought about a 16-fold dilution of those melanosomes which had been synthesized by RPE cells of the presumptive amelanotic zone during the initial wave of pigmentation. Enzyme cytochemical studies showed that the remaining melanosomes became sequestered in autophagic vacuoles. Also, individual premelanosomes of these RPE cells became positive for acid phosphatase and aryl sulfatase. The contents of these autophagosomes were later consolidated into a single macromelanosome which was present in adult eyes and was generally positive for acid hydrolases. In contrast, melanosomes of melanotic areas of RPE were negative for acid hydrolases. Thus, the RPE overlying the tapetum lucidum becomes amelanotic by at least three processes: (1) premature termination of melanogenesis, (2) dilution of preexisting melanosomes, and (3) autophagic digestion (melanolysis) and centralization of the residua of preexisting premelanosomes and melanosomes into a macromelanosome.