Alimentary tract innervation deficits and dysfunction in mice lacking GDNF family receptor α2
Jari Rossi, … , Mikael Segerstråle, Matti S. Airaksinen
Jari Rossi, … , Mikael Segerstråle, Matti S. Airaksinen
Published September 1, 2003
Citation Information: J Clin Invest. 2003;112(5):707-716. https://doi.org/10.1172/JCI17995.
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Categories: Article Neuroscience

Alimentary tract innervation deficits and dysfunction in mice lacking GDNF family receptor α2

Abstract

Subsets of parasympathetic and enteric neurons require neurturin signaling via glial cell line–derived neurotrophic factor family receptor α2 (GFRα2) for development and target innervation. Why GFRα2-deficient (Gfra2–/–) mice grow poorly has remained unclear. Here, we analyzed several factors that could contribute to the growth retardation. Neurturin mRNA was localized in the gut circular muscle. GFRα2 protein was expressed in most substance P–containing myenteric neurons, in most intrapancreatic neurons, and in surrounding glial cells. In the Gfra2–/– mice, density of substance P–containing myenteric ganglion cells and nerve bundles in the myenteric ganglion cell layer was significantly reduced, and transit of test material through small intestine was 25% slower compared to wild-type mice. Importantly, the knockout mice had approximately 80% fewer intrapancreatic neurons, severely impaired cholinergic innervation of the exocrine but not the endocrine pancreas, and increased fecal fat content. Vagally mediated stimulation of pancreatic secretion by 2-deoxy-glucose in vivo was virtually abolished. Retarded growth of the Gfra2–/– mice was accompanied by reduced fat mass and elevated basal metabolic rate. Moreover, the knockout mice drank more water than wild-type controls, and wet-mash feeding resulted in partial growth rescue. Taken together, the results suggest that the growth retardation in mice lacking GFRα2 is largely due to impaired salivary and pancreatic secretion and intestinal dysmotility.

Authors

Jari Rossi, Karl-Heinz Herzig, Vootele Võikar, Päivi H. Hiltunen, Mikael Segerstråle, Matti S. Airaksinen

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Figure 1

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Expression of Nrtn mRNA and GFRα2 protein in alimentary tract. (a–d) Loc...
Expression of Nrtn mRNA and GFRα2 protein in alimentary tract. (ad) Localization of Nrtn mRNA in mouse gut by in situ hybridization. (b and d) Corresponding bright-field images of dark-field images a and c, respectively. Nrtn is strongly expressed in the circular muscle layer at birth (a and b), but its levels decrease in adults (c and d). Distribution of GFRα2 protein in a cross section of the small intestine from newborn (e) and adult (g and n) wild-type mouse. No specific labeling is seen in a corresponding section from adult Gfra2–/– mice (f). (g) GFRα2 is found in myenteric (arrowheads) and to submucosal ganglia (arrows). (h) Immunostaining for S100β shows that glial cells in the muscle and mucosa are also labeled. (im) Whole-mount preparation of duodenum from adult wild-type mouse immunostained for GFRα2 (red) and S100β (i and k, green) or SP (l and m, green), focused at the same level as the myenteric ganglion cells (il) or deep muscular plexus (m). (ik) S100β-positive enteric glia (arrows) express GFRα2. (l and m) SP-containing secondary and tertiary nerve fiber bundles are GFRα2 positive. (nq) Myenteric ganglia stained for GFRα2 (n and p) and SP (o and q) in a cross section (n and o) or in colchicine-treated whole-mount preparation (p and q). Arrowheads point at SP-positive, GFRα2-negative structures. Arrows point at double-labeled neurons. Bars in ah = 100 μm; iq = 50 μm. cm, circular muscle; lm, longitudinal muscle layer; muc, mucosa; ad, adult; P0, postnatal day 0; mp, myenteric plexus; smp, submucosal plexus.