Inverse Density of Iba1 and Glutamine Synthetase Expressing Glia in Rat Inferior Colliculus

Abstract

AbstractMicroglia and astrocytes undertake numerous essential roles in nervous systems but we know little of their anatomical distribution within numerous nuclei. In the principal nuclei of the mammalian auditory midbrain, the inferior colliculi (IC), the cellular density and relative distribution of glutamate synthetase (GS) expressing astrocytes and ionized calcium-binding adapter molecule 1 (Iba1) expressing microglia is unknown. To address this, the IC of young adult, male Wistar rats were immunohistochemically labelled for GS and Iba1, using chromogenic methods. Sub-regions of imaged IC sections were demarked and soma density of both cell types determined. GS labelled somata were twice more densely packed as Iba1 labelled somata throughout IC parenchyma and peri-vascular regions. Furthermore, GS labelled somata density was significantly lower in dorsal cortex than external cortex or central nucleus. Iba1 labelled somata density exhibited the opposite trend, revealing an inverse density of these glial cell types between IC sub-regions. GS labelled neuropil was strongest in the cortices with and a gradual transition of lighter labelling towards central nucleus. These data provide the first detailed descriptions of GS labelling in IC and demonstrate sub-regional differences in IC glial cell density. Taken together, these findings suggest neurochemical specialization of glia in IC sub-regions, likely related to local physiological and metabolic demands, with implications for IC function.