Your search keyword '"Sheng ZJ"' showing total 3 results

1. Hypoalgesia in mice lacking GABA transporter subtype 1.

Author

Xu YF, Cai YQ, Cai GQ, Jiang J, Sheng ZJ, Wang ZG, and Fei J

Subjects

Animals, GABA Antagonists pharmacology, GABA Plasma Membrane Transport Proteins drug effects, GABA Plasma Membrane Transport Proteins genetics, Mice, Mice, Knockout, Nipecotic Acids pharmacology, Oximes pharmacology, Pain Threshold drug effects, Tiagabine, GABA Plasma Membrane Transport Proteins metabolism, Pain physiopathology, Pain Threshold physiology

Abstract

gamma-Aminobutyric acid (GABA) transporters play a key role in the regulation of GABA neurotransmission. We reported previously that overexpression of the GABA transporter subtype 1 (GAT1), the major form of the GABA transporter in the CNS, led to hyperalgesia in mice. In the present study, nociceptive responses of GAT1-knockout mice (GAT1(-/-)) were compared with those of heterozygous (GAT(+/-)) and wild-type (GAT(+/+)) mice by four conventional pain models (tail-immersion test, hot-plate test, acetic acid-induced abdominal constriction test, and formalin test). In addition, the analgesic effects of two GAT1-selective inhibitors, NO-711 and tiagabine, were examined in all three genotypes using the same four models. Our data demonstrated that GAT1 deficiency because of genetic knockout or acute blockade by selective inhibitors leads to hypoalgesia in mice. These results confirmed the crucial role of GAT1 in the regulation of nociceptive threshold and suggested that GAT1 inhibitors have the potential for clinical use in pain therapy., ((c) 2007 Wiley-Liss, Inc.)

Published

2008

2. Reduced aggression in mice lacking GABA transporter subtype 1.

Author

Liu GX, Liu S, Cai GQ, Sheng ZJ, Cai YQ, Jiang J, Sun X, Ma SK, Wang L, Wang ZG, and Fei J

Subjects

Animals, GABA Plasma Membrane Transport Proteins genetics, GABA Plasma Membrane Transport Proteins physiology, Housing, Animal, Male, Mice, Mice, Knockout, Motor Activity physiology, Social Behavior, Testosterone blood, Aggression physiology, GABA Plasma Membrane Transport Proteins deficiency

Abstract

Dysregulation of the brain GABAergic system has been implicated in the pathophysiology of violence and aggression. As a key regulator of central GABAergic activity, dysfunction of the GABA transporter subtype 1 (GAT1) represents a potential mechanism mediating pathologic aggression. We provide evidence that GAT1-/- mice and GAT1+/- mice exhibit lower aggressive behavior both in home cage resident-intruder test and neutral arena resident-intruder test, compared to wild-type mice (GAT1+/+). The pharmacologic effects of the GAT1 inhibitor, tiagabine and the GABA(A) receptor antagonist, bicuculline have been assessed in GAT1+/+ mice: tiagabine inhibits attacks but bicuculline induces attacks. Compared to GAT1+/- and +/+ mice, the GAT1-/- mice displayed a normal circadian pattern of home cage activity, but more activity overall. Meanwhile, reduced testosterone concentration was found in GAT1-/- mice compared to GAT1+/+ mice but not in GAT1+/+ mice treated with tiagabine, suggesting that testosterone is not directly involved in GAT1 mediated aggressive behavior regulation. These results showed that GAT1 is an important target involved in the regulation of aggressive behavior in mice, and long-term dysfunction of GAT1 may also result in the alteration of testosterone secretion.

Published

2007

3. Mice with genetically altered GABA transporter subtype I (GAT1) expression show altered behavioral responses to ethanol.

Author

Cai YQ, Cai GQ, Liu GX, Cai Q, Shi JH, Shi J, Ma SK, Sun X, Sheng ZJ, Mei ZT, Cui D, Guo L, Wang Z, and Fei J

Subjects

Analgesics, Non-Narcotic pharmacology, Animals, Blotting, Northern, Blotting, Southern, Brain metabolism, Central Nervous System Depressants metabolism, Conditioning, Classical drug effects, Ethanol metabolism, GABA Plasma Membrane Transport Proteins biosynthesis, Mice, Mice, Knockout, Quinine pharmacology, Reverse Transcriptase Polymerase Chain Reaction, Saccharin pharmacology, Sweetening Agents pharmacology, Synaptosomes drug effects, Synaptosomes physiology, Behavior, Animal drug effects, Brain drug effects, Central Nervous System Depressants pharmacology, Ethanol pharmacology, GABA Plasma Membrane Transport Proteins genetics

Abstract

It is widely accepted that the GABAergic system plays an important role in the action of ethanol in vivo. GABA transporter subtype 1 (GAT1) constructs high affinity reuptake sites in the CNS and regulates GABAergic transmissions. In this study, mice lacking the GAT1 were developed by homologous recombination. Both hetero- and homozygous GAT1 mutant mice were tested for ethanol, saccharin or quinine consumption, ethanol-conditioned place preference, ethanol-conditioned taste aversion, ethanol-simulated motor activity, and ethanol-induced sedation/hypnosis. The GAT1(-/-) mice showed decreased ethanol aversion and ethanol reward, and insensitivity to both the sedative/hypnotic and the motor stimulant effects of ethanol, along with increased avoidance of quinine preference and consumption. GAT1(+/-) mice showed significantly increased consumption of ethanol and saccharin, however, enhanced the rewarding and preference effect of ethanol, increased avoidance of quinine, and higher sensitivity to the motor stimulant effect of ethanol. These results demonstrate that GAT1, perhaps in a bi-directional way, modulates some behavioral effects of ethanol. The GAT1 mutant mice provided us a very useful model to investigate the mechanisms of ethanol action in vivo.

Published

2006