Pigment epithelial ensheathment and phagocytosis of rod tips in the retina of Rana catesbeiana

Abstract

Two modes of shedding of rod disc membranes were observed by electron microscopy in bullfrog retinas illuminated for various periods from 10 min to 2 hr. One mode is “autonomous shedding” whereby rods shed disc packets directly into the subretinal space. Most of the discarded disc packets are subsequently brought into contact with villous apical processes of pigment epithelial (PE) cells and are ultimately engulfed by these cells. When some of the shed disc membranes remain in the subretinal space, it appears that these remanants may be phagocytized by ameboid phagocytes. The other mode is “cooperative shedding” whereby rods shed disc packets with the participation of pigment epithelial ensheathment. Shedding of a disc packet from a rod tip, and enclosing of the rod tip by a broad, sleeve‐like apical process of a PE cell, take place simultaneously. The separated disc packets may be immediately engulfed by the PE cells without risk of failure. Both villous and sleeve‐like types of apical processes of PE cells in the bullfrog lack pigment granules, in contrast to the finger‐like apical processes that do contain pigment granules. Villous and sleeve‐like apical processes that do contain pigment granules. Villous and sleeve‐like processes therefore probably belong to the same category as the leaf‐like apical processes of PE cells in mammalian retinas.