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Vagal innervation of the rat pylorus: an anterograde tracing study using carbocyanine dyes and laser scanning confocal microscopy
Authors:Michael Kressel   Hans-Rudolf Berthoud  Winfried L. Neuhuber
Affiliation:(1) Anatomy Institute, University of Zürich, Winterthurerstrasse 190, CH-8057 Zürich, Switzerland;(2) Pennington Biomedical Research Center, Louisiana State University, 6400 Perkins Road, 70808 Baton Rouge, LA, USA;(3) Anatomy Institute, University of Erlangen, Krankenhausstrasse 9, D-91054 Erlangen, Germany
Abstract:In an attempt to identify the distribution and structure of vagal fibers and terminals in the gastroduodenal junction, vagal efferents were labeled in vivo by multiple injections of the fluorescent carbocyanine dye DiA into the dorsal motor nucleus (dmnX), and vagal afferents were anterogradely labeled by injections of DiI into the nodose ganglia of the same or separate rats. Thick frontal cryostat sections were analysed either with conventional or laser scanning confocal microscopy, using appropriate filter combinations and/or different wavelength laser excitation to distinguish the fluorescent tracers. Vagal efferent terminal-like structures were present in small ganglia within the circular sphincter muscle, which, in the absence of a well-developed, true myenteric plexus at this level, represent the myenteric ganglia. Furthermore, vagal efferent terminals were also present in submucosal ganglia, but were absent from mucosa, Brunner's glands and circular muscle fibers. Vagal afferent fibers and terminal-like structures were more abundant than efferents. The most prominent afferent terminals were profusely branching, large net-like aggregates of varicose fibers running within the connective tissue matrix predominantly parallel to the circular sphincter muscle bundles. Profusely arborizing, highly varicose endings were also present in large myenteric ganglia of the antrum and duodenum, in the modified intramuscular ganglia, and in submucosal ganglia. Additionally, afferent fibers and terminals were present throughout the mucosal lining of the gastroduodenal junction. The branching patterns of some vagal afferents suggested that individual axons produced multiple collaterals in different compartments. NADPH-diaphorase positive, possibly nitroxergic neurons were present in myenteric ganglia of the immediately adjacent antrum and duodenum, and fine varicose fibers entered the sphincter muscle from both sides, delineating the potential vagal inhibitory postganglionic innervation. These morphological results support the view of a rich and differentiated extrinsic neural control of this important gut region as suggested by functional studies.Abbreviations BSA Bovine serum albumin - CGRP calcitonin generelated peptide - DiA carbocyanine dye A - DiI carbocyanine dye I - dmnX dorsal motor nucleus of vagus - DMSO dimethylsulfoxide - ENK enkephalin - FITC fluorescin isothiocyanate - NADPH diaphorase nicotinamide adenine diphosphate - NPY neuropeptide Y - NTS nucleus tractus solitarii - PBS phosphate-buffered saline - VIP vasoactive intestinal peptide - WGA-HRP wheat-germ agglutinine-horseradish peroxidase
Keywords:Pylorus  Vagus nerve  Efferents  Afferents  Innervation  Anterograde tracing  NADPH-diaphorase  Confocal microscopy  Rat (Wistar, ZUR: SIV)
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