Vagal afferent innervation of the proximal gastrointestinal tract mucosa: Chemoreceptor and mechanoreceptor architecture

Abstract

The vagus nerve supplies low-threshold chemo- and mechanosensitive afferents to the mucosa of the proximal gastrointestinal (GI) tract. The absence of a full characterization of the morphology and distributions of these projections has hampered comprehensive functional analyses. In the present experiment, dextran (10K) conjugated with tetramethylrhodamine and biotin was injected into the nodose ganglion and used to label the terminal arbors of individual vagal afferents of both rats and mice. Series of serial 100-μm thick sections of the initial segment of the duodenum as well as the pyloric antrum were collected and processed with diaminobenzidine for permanent tracer labeling. Examination of over 400 isolated afferent fibers, more than 200 from each species, indicated that three vagal afferent specializations, each distinct in morphology and in targets, innervate the mucosa of the proximal GI tract. One population of fibers, the villus afferents, supplies plates of varicose endings to the apical tips of intestinal villi, immediately subjacent to the epithelial wall. A second type of afferent, the crypt afferent, forms subepithelial rings of varicose processes encircling the intestinal glands or crypts, immediately below the crypt-villus junction. Statistical assessment of the isolated fibers indicated that the villus arbors and the crypt endings are independent, issued by different vagal afferents. A third vagal afferent specialization, the antral gland afferent, arborizes along the gastric antral glands and forms terminal concentrations immediately below the luminal epithelial wall. The terminal locations, morphological features, and regional distributions of these three specializations provide inferences about the sensitivities of the afferents.