Histochemical localization of NADPH-diaphorase-positive elements in the enteric nervous system of bivalve molluscs

Abstract

Using a nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemistry, localization and morphology of putative nitric oxide synthase-containing elements were studied in the intestine of the following bivalves: Ruditapes philippinarum, Callithaca adamsi, Mercenaria stimpsoni (Veneridae), Corbicula japonica (Corbiculidae), Nodularia vladivostokensis and Cristaria tuberculata (Unionidae). NADPH-d-positive nerve cells and plexuses were found in the intestine of all species studied. Labelled diformazan bipolar nerve cells were present in the epithelium of the intestinal groove and typhlosole of the anterior midgut, the midgut proper, and the hindgut. Their apical process extended towards the gut lumen, whereas the basal one was connected with the basiepithelial NADPH-d-positive nerve plexus. In the typhlosole of N. vladivostokensis, these cells constituted up to 2.68% of the total number of epithelial cells. The bivalve species studied exhibit a similar distribution pattern of NADPH-d-positive cells, which lie separately or form small groups of two to three in the basal part of the epithelium. Basiepithelial NADPH-d-positive plexus was connected by separate fibres with subepithelial NADPH-d-positive nerve plexus. Both the plexuses were moderately developed in all intestinal regions in the majority of the species examined. © The Author 2007. Published by Oxford University Press on behalf of The Malacological Society of London, all rights reserved.