&NA; The Mongolian gerbil is a classic animal model for age‐related hearing loss. As a prerequisite for studying age‐related changes, we characterized cochlear afferent synaptic morphology in young adult gerbils,… Click to show full abstract
&NA; The Mongolian gerbil is a classic animal model for age‐related hearing loss. As a prerequisite for studying age‐related changes, we characterized cochlear afferent synaptic morphology in young adult gerbils, using immunolabeling and quantitative analysis of confocal microscopic images. Cochlear wholemounts were triple‐labeled with a hair‐cell marker, a marker of presynaptic ribbons, and a marker of postsynaptic AMPA‐type glutamate receptors. Seven cochlear positions covering an equivalent frequency range from 0.5 – 32 kHz were evaluated. The spatial positions of synapses were determined in a coordinate system with reference to their individual inner hair cell. Synapse numbers confirmed previous reports for gerbils (on average, 20–22 afferents per inner hair cell). The volumes of presynaptic ribbons and postsynaptic glutamate receptor patches were positively correlated: larger ribbons associated with larger receptor patches and smaller ribbons with smaller patches. Furthermore, the volumes of both presynaptic ribbons and postsynaptic receptor patches co‐varied along the modiolar‐pillar and the longitudinal axes of their hair cell. The gradients in ribbon volume are consistent with previous findings in cat, guinea pig, mouse and rat and further support a role in differentiating the physiological properties of type I afferents. However, the positive correlation between the volumes of pre‐ and postsynaptic elements in the gerbil is different to the opposing gradients found in the mouse, suggesting species‐specific differences in the postsynaptic AMPA receptors that are unrelated to the fundamental classes of type I afferents. Graphical abstract Figure. No Caption available. HighlightsSynaptic morphology of afferents on inner hair cells is believed to be related to their physiology.In the gerbil, we find larger ribbons associated with larger AMPA‐type receptor patches.Presynaptic ribbon and postsynaptic receptor sizes also co‐varied spatially.This confirms similar spatial trends for presynaptic ribbons in several species.Trends for postsynaptic receptors are inconsistent and run opposite in gerbil and mouse.
               
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