Neuropharmacology 2012 Sep 01;633:394-404. doi: 10.1016/j.neuropharm.2012.04.002.

Retention of a new-defined intron changes pharmacology and kinetics of the full-length P2X2 receptor found in myenteric neurons of the guinea pig.

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P2X2 plays an important role in ATP signaling in guinea pig myenteric plexus. Here, we cloned and characterized three P2X2 isoforms expressed in myenteric neurons. RT/PCR was used to amplify the cDNA of P2X2 variants. These were expressed in Xenopus oocytes, and nucleotide-induced membrane currents were recorded with the two-electrode voltage clamp technique. Three P2X2 cDNAs were identified in myenteric single neurons, named P2X2-1, P2X2-2 and P2X2-4. Based on the analysis of the structural organization of these variants we predicted that P2X2-2 is the fully processed variant, which lead us to propose a new exon-intron arrangement of P2X2 receptor gene with 12 exons and 11 introns. In agreement with this new model, the intron 11 is retained in P2X2-1 and P2X2-4 variants by alternative splicing. Expression of P2X2-1, P2X2-2 and P2X2-4 were found in 92, 42 and 37%, respectively, out of 40 analyzed single neurons. P2X2-4 does not form functional channels, and homomeric channels formed by P2X2-1 and P2X2-2 have different pharmacological profile. Thus, the former receptor is more sensitive to ATP, BzATP, and PPADS, whereas, suramin inhibited both receptors in a biphasic- and monophasic-manner, respectively. α,β-meATP has very low efficacy on either channel. Furthermore, ionic currents mediated by P2X2-1 have slower desensitization than P2X2-2. These results indicate that P2X2-1 was the most common P2X2 transcript in myenteric neurons and displays significant phenotypical changes implicating that retention of the intron 11 plays a major role in ATP signaling in the intestinal myenteric plexus.

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Species referenced: Xenopus laevis
Genes referenced: p2rx2