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XB-ART-38398
J Biol Chem 2008 Sep 12;28337:25725-34. doi: 10.1074/jbc.M803855200.
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The P2X7 carboxyl tail is a regulatory module of P2X7 receptor channel activity.

Becker D , Woltersdorf R , Boldt W , Schmitz S , Braam U , Schmalzing G , Markwardt F .


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P2X(7) receptors are ATP-gated cation channels composed of three identical subunits, each having intracellular amino and carboxyl termini and two transmembrane segments connected by a large ectodomain. Within the P2X family, P2X(7) subunits are unique in possessing an extended carboxyl tail. We expressed the human P2X(7) subunit as two complementary fragments, a carboxyl tail-truncated receptor channel core (residues 1-436 or 1-505) and a tail extension (residues 434-595) in Xenopus laevis oocytes. P2X(7) channel core subunits efficiently assembled as homotrimers that appeared abundantly at the oocyte surface, yet produced only approximately 5% of the full-length P2X(7) receptor current. Co-assembly of channel core subunits with full-length P2X(7) subunits inhibited channel current, indicating that the lack of a single carboxyl tail domain is dominant-negative for P2X(7) receptor activity. Co-expression of the tail extension as a discrete protein increased ATP-gated current amplitudes of P2X(7) channel cores 10-20-fold, fully reconstituting the wild type electrophysiological phenotype of the P2X(7) receptor. Chemical cross-linking revealed that the discrete tail extension bound with unity stoichiometry to the carboxyl tail of the P2X(7) channel core. We conclude that a non-covalent association of crucial functional importance exists between the carboxyl tail of the channel core and the tail extension. Using a slightly shorter P2X(7) subunit core and subfragments of the tail extension, this association could be narrowed down to include residues 409-436 and 434-494 of the split receptor. Together, these results identify the tail extension as a regulatory gating module, potentially making P2X(7) channel gating sensitive to intracellular regulation.

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Species referenced: Xenopus laevis
Genes referenced: p2rx7