The cytoarchitecture and some efferent projections of the centromedian-parafascicular complex in the lesser bushbaby (Galago senegalensis)

Abstract

The morphology of neurons in the centromedian (CM) and parafascicular (PF) nuclei in the lesser bushbaby (Galago senegalensis) is described in coronal and horizontal brain sections using Golgi‐, horseradish peroxidase (HRP)‐, and Nissl‐staining procedures. The CM contains two types of cells referred to as principal neurons and Golgi type II (like) neurons. Cell bodies of principal neurons are relatively large in cross‐sectional area (mean = 130.42 μm²), round to spindle in shape, support short somatic spines, and give rise to three to five primary dendrites. The dendrites branch in a “radiate” pattern and possess numerous appendages consisting of narrow, stalk‐supported swellings. The presumed axons of these cells are impregnated only in their initial segments. On the basis of the similarity of principal neuron soma shapes and cross‐sectional areas with those of HRP‐reactive somata following cortical HRP implantation, it is concluded that at least some of the principal neurons in Galago CM project to somatic sensory‐motor cortex. Golgi type II (like) neurons have small (mean = 79.43 μm²), round somata which support several spines and give rise to three to four small‐diameter dendrites. The dendrites are infrequently branched, sinuous in their courses, and give rise to complex appendages and beaded processes. However, the axons of these cells could not be seen to ramify in the immediate vicinity of the dendritic field or soma, and there is considerable overlap in the cross‐sectional areas of Golgi type II (like) neurons seen in Golgi preparations and HRP‐stained cells following cortical implant of HRP pellets. Consequently, although Golgi type II (like) cells have traits characteristic of classically described intrinsic neurons, a cortical projection of these cells cannot be ruled out by the present study. The parafascicular nucleus contains two groups of large, radiate cells characterized by the presence or absence of somatic spines. Cells with somatic spines also contain numerous appendages on the dendrites. Cells without somatic spines support only a few, isolated, short dendritic appendages. Numerous small cell‐bodied neurons are present in Nissl‐stained sections of PF; however, cells which resemble Golgi type II neurons were not observed in the PF in the present Golgi‐impregnated material. In contrast to the CM, the large cell‐bodied neurons in PF were not found to project to somatic sensory‐motor cortex in Galago.