May 12, 2025, Filed Under: 2020Taurine Suppression of Central Amygdala GABAergic Inhibitory Signaling via Glycine Receptors Is Disrupted in Alcohol Dependence Citation: Kirson D, Oleata CS, and Roberto M. “Taurine Suppression of Central Amygdala GABAergic Inhibitory Signaling via Glycine Receptors Is Disrupted in Alcohol Dependence.” Alcoholism: Clinical and Experimental Research, 44, 2, Pp. 445-454. Publisher’s Version
May 12, 2025, Filed Under: 2020Targeting the glucocorticoid receptor reduces binge-like drinking in high drinking in the dark (HDID-1) mice Citation: Savarese AM, Ozburn AR, Metten P, Schlumbohm JP, Hack WR, LeMoine K, Hunt H, Hausch F, Bauder M, and Crabbe JC. “Targeting the glucocorticoid receptor reduces binge-like drinking in high drinking in the dark (HDID-1) mice.” Alcohol Clin Exp Res , 44, 5, Pp. 1025-1036. Publisher’s Version
May 12, 2025, Filed Under: 2020Targeting the glucocorticoid receptor reduces binge-like drinking in high drinking in the dark (HDID-1) mice Citation: Savarese AM, Ozburn AR, Metten P, Schlumbohm JP, Hack WR, LeMoine K, Hunt H, Hausch F, Bauder M, and Crabbe JC. “Targeting the glucocorticoid receptor reduces binge-like drinking in high drinking in the dark (HDID-1) mice.” Alcohol Clin Exp Res , 44, 5, Pp. 1025-1036. Publisher’s Version
May 12, 2025, Filed Under: 2020Targeting morphine-responsive neurons: generation of a knock-in mouse line expressing Cre recombinase from the mu-opioid receptor gene locus Citation: Bailly J, Del Rossi N, Runtz L, Li JJ, Park D, Scherrer G, Tanti A, Birling MC, Darcq E, and Kieffer BL. “Targeting morphine-responsive neurons: generation of a knock-in mouse line expressing Cre recombinase from the mu-opioid receptor gene locus.” eNeuro, 7, 3, Pp. ENEURO.0433-19. Publisher’s Version
May 12, 2025, Filed Under: 2020Structural and biochemical imaging reveals systemic LPS-induced changes in the rat brain Citation: Fritz M, Klawonn AM, Zhao Q, Sullivan EV, Zahr NM, and Pfefferbaum A. “Structural and biochemical imaging reveals systemic LPS-induced changes in the rat brain.” J Neuroimmunol , 348, Pp. p.577367-577367. Publisher’s Version
May 12, 2025, Filed Under: 2020Spontaneous early withdrawal behaviors after chronic 24-hour free-choice access to ethanol Citation: Hauser SR, Smith RJ, Toalston JE, Rodd ZA, McBride WJ, and Bell RL. “Spontaneous early withdrawal behaviors after chronic 24-hour free-choice access to ethanol.” Alcohol and Alcoholism, 55, 5, Pp. 480-488. Publisher’s Version
May 12, 2025, Filed Under: 2020Single cell transcriptome profiling of the human alcohol-dependent brain Citation: Brenner E, Tiwari GR, Kapoor M, Liu Y, Brock A, and Mayfield RD. “Single cell transcriptome profiling of the human alcohol-dependent brain.” Human Molecular Genetics, 29, 7, Pp. 1144–1153. Publisher’s Version
May 12, 2025, Filed Under: 2020Selective breeding for high alcohol preference is associated with increased sensitivity to cannabinoid reward within the nucleus accumbens shell. Citation: Hauser SR, Katner SN, Waeiss RA, Truitt WA, Bell RL, McBride WJ, and Rodd ZA. “Selective breeding for high alcohol preference is associated with increased sensitivity to cannabinoid reward within the nucleus accumbens shell..” Pharmacology Biochemistry and Behavior, 197, Pp. 173002. Publisher’s Version
May 12, 2025, Filed Under: 2020Role of toll-like receptor 7 (TLR7) in voluntary alcohol consumption. Citation: Grantham EK, Warden AS, McCarthy GS, Da Costa A, Mason S, Blednov Y, Mayfield RD, and Harris RA. “Role of toll-like receptor 7 (TLR7) in voluntary alcohol consumption..” Brain Behavior and Immunity, 89, Pp. 423-432. Publisher’s Version Last updated on 11/29/2020
May 12, 2025, Filed Under: 2020The rewarding and anxiolytic properties of ethanol within the central nucleus of the amygdala: mediated by genetic background and nociceptin. Citation: Knight CP, Hauser SR, Waeiss RA, Molosh AI, Johnson PL, Truitt WA, McBride WJ, Bell RL, Shekhar A, and Rodd ZA. “The rewarding and anxiolytic properties of ethanol within the central nucleus of the amygdala: mediated by genetic background and nociceptin..” Journal of Pharmacology and Experimental Therapeutics, 374, Pp. 366-375. Publisher’s Version
