Affiliation:
1. From the Department of Cell and Molecular Physiology (N.G.M., D.A.R., W.J.A., M.F.G.), University of North Carolina, Chapel Hill; and Ironwood Pharmaceuticals (R.M.S., M.M.K., D.P.Z., M.G.C.), Cambridge, Mass.
Abstract
The peptide uroguanylin regulates electrolyte transport in the intestine and kidney. Human uroguanylin has 2 conformations that can be stably isolated because of their slow interconversion rate. The A isomer potently activates the guanylate cyclase C receptor found primarily in the intestine. The B isomer, by contrast, is a very weak agonist of this receptor, leading to a widely held assumption that it is physiologically irrelevant. We show here, however, that human uroguanylin B has potent natriuretic activity in the kidney. Interestingly, uroguanylin A and B both induce saluretic responses, but the activity profiles for the 2 peptides differ markedly. The uroguanylin B dose-response curve is sigmoidal with a threshold dose of ≈10 nmol/kg of body weight, whereas uroguanylin A has a comparable threshold but a bell-shaped dose-response curve. In addition, our study indicates a unique interplay between the A and B isoforms, such that the A form at high concentrations antagonizes the natriuretic action of the B form. These data show that the kidney contains a uroguanylin receptor of which the pharmacological profile does not match that of the well-defined intestinal uroguanylin receptor (guanylate cyclase C), an observation consistent with previous studies showing that the kidney of the guanylate cyclase C knockout mouse remains responsive to uroguanylin. The results presented here also support the unconventional notion that distinct conformations of a single endocrine peptide can elicit different responses in different tissues.
Publisher
Ovid Technologies (Wolters Kluwer Health)
Cited by
11 articles.
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