Quantitative analysis of synaptogenesis in the inner plexiform layer of macaque monkey fovea

Abstract

Synaptogenesis has been tracked by using quantitative electron microscopic methods in the inner plexiform layer (IPL) of the developing Macaca monkey fovea from fetal day (Fd) 55 to Fd132. Vesicle‐containing profiles were classified according to whether (1) they contained a ribbon indicating that they originated from a bipolar cell, or (2) the profile formed a junction. Group 2 was further subdivided by morphological characteristics into (2a) amacrine, (2b) bipolar, or (2c) unknown profiles. Ribbon‐containing bipolar profiles are clearly identifiable at Fd55 when they occur at a density of 0.9/100 μm². Bipolar synapses increase rapidly to 4.7/100 μm² by Fd88, similar to their density at Fd132. Identifiable amacrine profiles forming a junction are rare at Fd55–68. By Fd88, amacrine synaptic density has jumped to 6.7/100 μm² and continues to increase to 9.5/100 μm² at Fd132. These quantitative data strongly suggest that, at the Macaca fovea, bipolar synaptogenesis both begins and ends before amacrine synaptogenesis. The large number of immature amacrine synaptic profiles and densities at Fd132 suggests that amacrine synapses continue to form after Fd132. This study confirms that cone‐dominated monkey fovea has a different sequence of synaptogenesis than the rod‐ dominated peripheral retina (Nishimura and Rakic, [1985] J. Comp. Neurol 241:420–434). The data support the concept that synaptic developmental sequence is determined by the type of photoreceptor which dominates a particular retinal region or species. Bipolar ribbon synapses are observed in the outer half of the IPL at Fd55, are present in the inner IPL at Fd60, and then, with increasing age, are found throughout the IPL. This pattern strongly suggests that vertical OFF bipolar pathways form earlier than ON pathways in the IPL. In contrast, amacrine profiles are found throughout the IPL at the youngest ages, with an adult‐like banding pattern present by Fd132.