Neurochemical properties for defining subdivisions of the mouse medial geniculate body

Abstract

The medial geniculate body (MGB) exhibits anatomical and physiological properties that underlie its role in the auditory system. Anatomical properties, including myelo- and cyto-architecture, are used to identify MGB subdivisions. Recently, neurochemical properties, including calcium-binding proteins, have also been employed to define the MGB subdivisions. Because these properties do not show clear boundaries in the MGB and do not involve anatomical connectivity, whether the MGB subdivisions can be defined based on anatomical and neurochemical properties remains unclear. In this study, 11 different neurochemical markers were employed for defining the MGB subdivisions. In terms of anatomical connectivity, immunoreactivities for vesicular transporter demonstrated glutamatergic, GABAergic and glycinergic afferents and provided clues about the boundaries of the MGB subdivisions. On the other hand, the distribution of novel neurochemical markers of the MGB demonstrated distinct boundaries of the MGB subdivisions and resulted in the discovery of a putative homolog of the rabbit internal division of the MGB. Additionally, corticotropin-releasing factor was expressed in the larger neurons in the medial division of the MGB (MGm), particularly in the caudal MGm. Lastly, the analysis of anatomical details by measuring the size and density of vesicular transporters revealed heterogeneity among the MGB subdivisions. Our results demonstrate that the MGB is composed of five subdivisions based on their anatomical and neurochemical properties.