Chromogranin A, a glycoprotein stored in secretory granules of neuroendocrine cells, displays a widespread distribution throughout the central nervous system of a variety of species. In situ hybridization histochemistry was employed to investigate the localization of chromogranin A mRNA in the central nervous system of the rat. The previously characterized monoclonal antibody, LK2H-10, was employed in an immunohistochemical study to compare the topographic localization of the chromogranin A protein with that of its mRNA. Although the latter, as revealed by in situ hybridization, displayed a ubiquitous, pan-neuronal localization throughout the rat brain, LK2H-10 immunoreactive cell bodies and axon terminals were disposed in a widespread, but highly regionally differential, distribution. This discrepancy suggests that chromogranin A is processed in a regionally differential fashion in the rat brain to yield one or multiple variant forms, one of which is specifically recognized by LK2H-10. Catecholaminergic cell groups consistently displayed LK2H-10 immunoreactivity. LK2H-10 immunopositive axon terminals were prominent in the circumventricular organs. In addition, LK2H-10 immunoreactivity was also detected in a subset of astrocytes which demonstrated a widespread, but anatomically restricted, pattern of distribution. Consequently, the variant of chromogranin A labelled by LK2H-10 represents a novel neurochemical marker for regionally differential astrocytic diversity.
Copyright 1999 Harcourt Publishers Ltd.