P2Y6 receptor mediates colonic NaCl secretion via differential activation of cAMP-mediated transport
Michael Köttgen, … , Søren Nielsen, Jens Leipziger
Michael Köttgen, … , Søren Nielsen, Jens Leipziger
Published February 1, 2003
Citation Information: J Clin Invest. 2003;111(3):371-379. https://doi.org/10.1172/JCI16711.
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P2Y6 receptor mediates colonic NaCl secretion via differential activation of cAMP-mediated transport

Abstract

Extracellular nucleotides are important regulators of epithelial ion transport. Here we investigated nucleotide-mediated effects on colonic NaCl secretion and the signal transduction mechanisms involved. Basolateral UDP induced a sustained activation of Cl– secretion, which was completely inhibited by 293B, a specific inhibitor of cAMP-stimulated basolateral KCNQ1/KCNE3 K+ channels. We therefore speculated that a basolateral P2Y6 receptor could increase cAMP. Indeed UDP elevated cAMP in isolated crypts. We identified an epithelial P2Y6 receptor using crypt [Ca2+]i measurements, RT-PCR, and immunohistochemistry. To investigate whether the rat P2Y6elevates cAMP, we coexpressed the P2Y1 or P2Y6 receptor together with the cAMP-regulated cystic fibrosis transmembrane conductance regulator (CFTR) Cl– channel in Xenopus oocytes. A two-electrode voltage clamp was used to monitor nucleotide-induced Cl– currents. In oocytes expressing the P2Y1 receptor, ATP transiently activated the endogenous Ca2+-activated Cl– current, but not CFTR. In contrast, in oocytes expressing the P2Y6receptor, UDP transiently activated the Ca2+-activated Cl– current and subsequently CFTR. CFTR Cl– currents were identified by their halide conductance sequence. In summary we find a basolateral P2Y6 receptor in colonic epithelial cells stimulating sustained NaCl secretion by way of a synergistic increase of [Ca2+]i and cAMP. In support of these data P2Y6 receptor stimulation differentially activates CFTR in Xenopus oocytes.

Authors

Michael Köttgen, Thomas Löffler, Christoph Jacobi, Roland Nitschke, Hermann Pavenstädt, Rainer Schreiber, Sebastian Frische, Søren Nielsen, Jens Leipziger

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Figure 5

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Whole-cell conductive properties of Xenopus oocytes expressing the P2Y1 ...
Whole-cell conductive properties of Xenopus oocytes expressing the P2Y1 and P2Y6 receptors alone. P2Y1: (a) ATP (10 μM) induced a fast increase in whole-cell current (clamp protocol see Figure 4). (b) Halide conductance sequence enlarged from a. (c) Current-voltage relationship of the ATP-induced whole-cell conductance. (d) Summary of halide conductance sequence experiments. P2Y6 (e) UDP (10 μM) induced a fast increase in whole-cell current (clamp protocol see Figure 4). (f) Halide conductance sequence enlarged from e. (g) Current-voltage relationship of the UDP-induced whole-cell conductance. (h) Summary of halide conductance sequence experiments. (i and j) Nucleotide selectivity of the cloned P2Y receptors. (i) Nucleotide-induced conductance increase in P2Y1 receptor–expressing oocytes. (j) Nucleotide-induced conductance increase in P2Y6 receptor–expressing oocytes.