Distribution of mitochondria within Muller cells – II. Post-natal development of the rabbit retinal periphery in vivo and in vitro: dependence on oxygen supply

The occurrence and localization of mitochondria within glial (Muller) cells and neurons of the peripheral (avascular) rabbit retina was studied electron microscopically and by immunocytochemical demonstration of the mitochondrial enzyme GABA transaminase (GABA-T). Post-natal development in vivo was compared with development of organ cultures from neonatal rabbit retinae, grown over 2 weeks in vitro. The adult pattern of mitochondrial localization (restriction to the sclerad end of the cells) was observed from the beginning of enzyme expression at early post-natal stages. However, when neonatal retinal pieces were grown in vitro with their vitread surface exposed to the air, their Muller cells contained mitochondria along most of their length. When functionally developed retinae from postnatal day 14 were explanted in vitro, they retained their sclerad mitochondrial distribution for almost 24 h but thereafter the inner portions of their cytoplasm became occupied by mitochondria within a few hours. This was achieved mainly by mitochondrial migration rather than by formation of new mitochondria because it was not prevented by cycloheximide-induced inhibition of protein synthesis. These data support the following hypotheses: (1) the mitochondrial distribution in Muller cells is determined by the local cytoplasmic O2 pressure (pO2), (2) existing mitochondria move towards cytoplasmic regions of sufficient pO2 by rather rapid migration and (3) the start of this migration is delayed by almost 24 h due to the action of as yet unknown control mechanisms. In contrast, the mitochondrial content of retinal ganglion and amacrine cells in the vitread retinal layers was virtually independent of the source and level of oxygen supply.