Carlos I. Ruiz scite author profile

Carlos I. Ruiz

3Publications

42Citation Statements Received

145Citation Statements Given

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136

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The University of Texas at Austin

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Mutation of the inhibitory ethanol site in GABA A ρ1 receptors promotes tolerance to ethanol-induced motor incoordination

et al. 2017

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Genes encoding the ρ1/2 subunits of GABAA receptors have been associated with alcohol (ethanol) dependence in humans, and ρ1 was also shown to regulate some of the behavioral effects of ethanol in animal models. Ethanol inhibits GABA-mediated responses in wild-type (WT) ρ1, but not ρ1(T6’Y) mutant receptors expressed in Xenopus laevis oocytes, indicating the presence of an inhibitory site for ethanol in the second transmembrane helix. In this study, we found that ρ1(T6’Y) receptors expressed in oocytes display overall normal responses to GABA, the endogenous GABA modulator (zinc), and partial agonists (β-alanine and taurine). We generated ρ1 (T6’Y) knockin (KI) mice using CRISPR/Cas9 to test the behavioral importance of the inhibitory actions of ethanol on this receptor. Both ρ1 KI and knockout (KO) mice showed faster recovery from acute ethanol-induced motor incoordination compared to WT mice. Both KI and KO mutant strains also showed increased tolerance to motor impairment produced by ethanol. The KI mice did not differ from WT mice for other behavioral actions, including ethanol intake and preference, conditioned taste aversion to ethanol, and duration of ethanol-induced loss of righting reflex. WT and KI mice did not differ in levels of ρ1 or ρ2 mRNA in cerebellum or in ethanol clearance. Our findings indicate that the inhibitory site for ethanol in GABAA ρ1 receptors regulates acute functional tolerance to moderate ethanol intoxication. We note that low sensitivity to alcohol intoxication has been linked to risk for development of alcohol dependence in humans.

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Identification of an Inhibitory Alcohol Binding Site in GABA_A ρ1 Receptors

Borghese

Ruiz

Lee

et al. 2015

ACS Chem. Neurosci.

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Alcohols inhibit γ-aminobutyric acid type A ρ1 receptor function. After introducing mutations in several positions of the second transmembrane helix in ρ1, we studied the effects of ethanol and hexanol on GABA responses using two-electrode voltage clamp electrophysiology in Xenopus laevis oocytes. The 6′ mutations produced the following effects on ethanol and hexanol responses: small increase or no change (T6′M), increased inhibition (T6′V) and small potentiation (T6′Y and T6′F). The 5′ mutations produced mainly increases in hexanol inhibition. Other mutations produced small (3′ and 9′) or no changes (2′ and L277 in the first transmembrane domain) in alcohol effects. These results suggest an inhibitory alcohol binding site near the 6′ position. Homology models of ρ1 receptors based on the X-ray structure of GluCl showed that the 2′, 5′, 6’ and 9′ residues were easily accessible from the ion pore, with 5′ and 6′ residues from neighboring subunits facing each other; L3′ and L277 also faced the neighboring subunit. We tested ethanol through octanol on single and double mutated ρ1 receptors [ρ1(I15′S), ρ1(T6′Y) and ρ1(T6′Y,I15′S)] to further characterize the inhibitory alcohol pocket in the wild-type ρ1 receptor. The pocket can only bind relatively short-chain alcohols and is eliminated by introducing Y in the 6’ position. Replacing the bulky 15′ residue with a smaller side chain introduced a potentiating binding site, more sensitive to long-chain than to short-chain alcohols. In conclusion, the net alcohol effect on the ρ1 receptor is determined by the sum of its actions on inhibitory and potentiating sites.

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Identification of an Inhibitory Alcohol Binding Site in GABAaRho1

Trudell

Borghese

Ruiz

et al. 2016

Biophysical Journal

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Ionotropic glutamate receptors are believed to undergo twisting and shortening upon activation. We used fast-scan atomic force microscopy (AFM) imaging to examine the conformational change of the GluK2 kainate receptor, integrated into a lipid bilayer, in response to activation by the agonist glutamate, either added to the imaging chamber or generated by UV photolysis of caged glutamate. In both cases, the height of the extracellular domain of the receptor fell by 0.8 nm upon activation. In contrast, there was no significant height change in response to glutamate in the presence of the GluK2 antagonist CNQX. Our study represents the first demonstration of the effect of activation on the conformation of GluK2 receptors under near-physiological conditions.

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Carlos I. Ruiz

Mutation of the inhibitory ethanol site in GABA A ρ1 receptors promotes tolerance to ethanol-induced motor incoordination

Identification of an Inhibitory Alcohol Binding Site in GABA_A ρ1 Receptors

Identification of an Inhibitory Alcohol Binding Site in GABAaRho1

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Carlos I. Ruiz

Mutation of the inhibitory ethanol site in GABA A ρ1 receptors promotes tolerance to ethanol-induced motor incoordination

Identification of an Inhibitory Alcohol Binding Site in GABAA ρ1 Receptors

Identification of an Inhibitory Alcohol Binding Site in GABAaRho1

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Identification of an Inhibitory Alcohol Binding Site in GABA_A ρ1 Receptors