NADPH‐diaphorase: A selective histochemical marker for striatal neurons containing both somatostatin‐ and avian pancreatic polypeptide (APP)‐like immunoreactivities

Abstract

Certain neurons in the brain are specifically and intensely stained by a histochemical method which demonstrates nicotinamide adenine dinucleo‐tide phosphate NADPH‐diaphorase activity. The cell types containing this enzyme in certain areas of the rat forebrain were examined by combining NADPH‐diaphorase histochemistry with the indirect immunofluorescence technique. Neurons containing somatostatin‐ or avian pancreatic polypep‐tide (APP)‐like immunoreactivities were found throughout the forebrain including the striatum and neocortex. These two neuropeptides were also found to coexist in many telencephalic neurons. After photography, the sections processed for immunohistochemistry were stained for NADPH‐diaphorase activity by a histochemical method. It was found that within the striatum all of the neurons that were selectively stained by this technique also contained both somatostatin‐ and APP‐like immunoreactivities. Also in the neocortex NADPH‐diaphorase was found only in those neurons displaying somatostatin‐ or APP‐like immunoreactivity. In other brain regions such as the nucleus laterodorsalis tegmenti, NADPH‐diaphorase‐containing cells did not contain these neuropeptides. The results indicate that NADPH‐diaphorase histochemistry provides a simple, reliable, histochemical method to demonstrate those striatal neurons in which somatostatin‐ and APP‐like immunoreactivities coexist. The selective occurrence of this enzyme within these neurons may provide a useful target for pharmacological studies of these neuropeptide‐containing cells.