Browsing by Author "Coddou, C"
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- ItemExtracellular histidine residues identify common structural determinants in the copper/zinc P2X2 receptor modulation(2005) Lorca, RA; Coddou, C; Gazitúa, MC; Bull, P; Arredondo, C; Huidobro-Toro, JPTo assess the mechanism of P2X(2) receptor modulation by transition metals, the cDNA for the wild-type receptor was injected to Xenopus laevis oocytes and examined 48-72 h later by the two-electrode voltage-clamp technique. Copper was the most potent of the trace metals examined; at 10 mu M it evoked a 25-fold potentiation of the 10 mu M ATP-gated currents. Zinc, nickel or mercury required 10-fold larger concentrations to cause comparable potentiations, while palladium, cobalt or cadmium averaged only 12- and 3-fold potentiations, respectively. Platinum was inactive. The non-additive effect of copper and zinc at 10-100 mu M suggests a common site of action; these metals also shifted to the left the ATP concentration-response curves. To define residues necessary for trace metal modulation, alanines were singly substituted for each of the nine histidines in the extracellular domain of the rat P2X(2) receptor. The H120A and H213A mutants were resistant to the modulator action of copper, zinc and other metals with the exception of mercury. Mutant H192A showed a reduction but not an abrogation of the copper or zinc potentiation. H245A showed less affinity for copper while this mutant flattened the zinc-induced potentiation. Mutant H319A reduced the copper but not the zinc-induced potentiation. In contrast, mutants H125A, H146A, H152A and H174A conserved the wild-type receptor sensitivity to trace metal modulation. We propose that His120, His192, His213 and His245 form part of a common allosteric metal-binding site of the P2X(2) receptor, which for the specific coordination of copper, but not zinc, additionally involves His319.
- ItemHeavy metals modulate the activity of the purinergic P2X4 receptor(2005) Coddou, C; Lorca, RA; Acuña-Castillo, C; Grauso, M; Rassendren, F; Huidobro-Toro, JPTo further characterize the nature of the regulatory metal-binding sites of the rat P2X(4) receptor, several transition heavy metals were tested to examine their ability to mimic the facilitator action of zinc or the inhibitory action of copper. cDNA coding for the rat P2X(4) receptor was injected into Xenopus laevis oocytes; the two-electrode voltage-clamp technique was used to measure and quantify the ATP-evoked currents in the absence or presence of the metals. Cadmium facilitated the ATP-gated currents in a reversible and voltage-independent manner; maximal potentiation occurred within less than 1 min.
- ItemHistidine 140 plays a key role in the inhibitory modulation of the P2X4 nucleotide receptor by copper but not zinc(2003) Coddou, C; Morales, B; González, J; Grauso, M; Gordillo, F; Bull, P; Rassendren, F; Huidobro-Toro, JPTo elucidate the role of extracellular histidines in the modulation of the rat P2X(4) receptor by trace metals, we generated single, double, and triple histidine mutants for residues 140, 241, and 286, replacing them with alanines. cDNAs for the wild-type and receptor mutants were expressed in Xenopus laevis oocytes and in human embryonic kidney 293 cells and examined by the two electrode and patch clamp techniques, respectively. Whereas copper inhibited concentration-dependently the ATP-gated currents in the wild-type and in the single or double H241A and H286A receptor mutants, all receptors containing H140A were insensitive to copper in both cell systems. The characteristic bell-shaped concentration-response curve of zinc observed in the wildtype receptor became sigmoid in both oocytes and human embryonic kidney cells expressing the H140A mutant; in these mutants, the zinc potentiation was 2.5-4-fold larger than in the wild-type. Results with the H140T and H140R mutants further support the importance of a histidine residue at this position. We conclude that His-140 is critical for the action of copper, indicating that this histidine residue, but not His-241 or His-286, forms part of the inhibitory allosteric metal-binding site of the P2X4 receptor, which is distinct from the putative zinc facilitator binding site.
- ItemThe hypolipidemic drug metabolites nafenopin-CoA and ciprofibroyl-CoA are competitive P2Y1 receptor antagonists(2003) Coddou, C; Loyola, G; Boyer, JL; Bronfman, M; Huidobro-Toro, JPCoenzyme A (CoA-SH), endogenous and drug-derived CoA-derivatives were tested as putative antagonists of P2Y receptors expressed in Xenopus laevis oocytes, a method used to determine calcium-activated chloride current, an indicator of the activation of these receptors. CoA-SH antagonized reversibly and in a concentration-dependent manner the ATP-gated currents evoked by the human P2Y(1) but not the P2Y(2) receptor. Palmitoyl-CoA was four-fold more potent than CoASH as an antagonist while palmitoyl-carnitine was inactive, highlighting the role of the CoA-SH moiety in the antagonism. The CoA derivatives of nafenopin and ciprofibrate, two clinically relevant hypolipidemic drugs, increased 13 and three-fold the potency of CoA-SH, respectively. The K(B)s of nafenopin-CoA and ciprofibroyl-CoA were 58 and 148 nM, respectively; the slopes of the Schild plots were unitary. Neither 100 muM nafenopin nor ciprofibrate alone altered the P2Y, receptor activity. Neither CoA-SH nor ciprofibroyl-CoA antagonized the rat P2X(2) or the P2X(4) nucleotide receptors nor interacted with the 5-HT2A/C receptors. The bulky drug CoA-SH derivatives identify a hydrophobic pocket, which may serve as a potential target for novel selective P2Y(1) antagonists. (C) 2003 Published by Elsevier Science B.V. on behalf of the Federation of European Biochemical Societies.