Neuroscience 1988;24(3):853-75.
Cellular substrate of the histochemically defined striosome/matrix system of the caudate nucleus: a combined Golgi and immunocytochemical study in cat and ferret.
Abstract:
In order to learn what morphological substrate might underly the histochemical compartments of the neostriatum, sections of the caudate nucleus and the putamen of cats and ferrets were stained immunocytochemically with antisera directed against several neuropeptides and transmitter-related enzymes and were then Golgi-impregnated. Adjacent sections were stained to reveal acetylcholinesterase activity to identify the acetylcholinesterase-poor striosomes. The immunostaining produced by several of the antibody preparations was in register with the acetylcholinesterase-poor striosomes but the most prominent staining of these zones occurred with the antibodies directed against substance P. The striosomes were delineated by intense substance P-immunostaining of neuronal perikarya and dendrites, and in the rostral and dorsal caudate nucleus the boundary between substance P-immunostained and extrastriosomal matrix was abrupt. For these reasons we analysed Golgi-impregnated neurons in sections immunostained for substance P in order to assess the influence of the chemically defined striosomal architecture on the position and dendritic arborization of neurons located both within the striosomes and within the extrastriosomal matrix. The most commonly impregnated neurons were of the medium-size densely spiny class. Those that were present within the striosomes and lay within one dendritic radius of the boundary were divided into two types: (1) neurons whose dendritic arborization was apparently not influenced by the boundary and (2) neurons whose dendritic arborization was markedly influenced by the boundary. For neurons of the latter type, dendrites either emerged from the parts of the perikaryon away from the boundary, so avoiding crossing it, or they exhibited abrupt changes in their course, apparently to avoid crossing the boundary. Spiny neurons located in the extrastriosomal matrix but close to the striosomal boundary had dendrites that were either influenced by, or not influenced by the compartmental boundary. We conclude that there is a specific cytoarchitecture underlying the histochemical compartments of the neostriatum and that different sub-populations of medium-size spiny neurons underly (1) the segregation of information flow in striosomes and the extrastriosomal matrix and (2) communication between striosomes and the extrastriosomal matrix.