Compounds > gamma-aminobutyric acid
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gamma-aminobutyric acid and Morphine Abuse

gamma-aminobutyric acid has been researched along with Morphine Abuse in 38 studies

gamma-Aminobutyric Acid: The most common inhibitory neurotransmitter in the central nervous system.
gamma-aminobutyric acid : A gamma-amino acid that is butanoic acid with the amino substituent located at C-4.

Research Excerpts

ExcerptRelevanceReference
"Metabolic consequences of morphine dependence and withdrawal intervention have not been well explored."7.78¹H NMR-based metabonomic analysis of brain in rats of morphine dependence and withdrawal intervention. ( Bu, Q; Cen, X; Deng, P; Deng, Y; Hu, C; Hu, Z; Li, Y; Shao, X; Xu, Y; Yan, G; Zhao, J; Zhao, Y; Zhou, J; Zhu, R, 2012)
"To observe the effects of gamma-aminobutyric acid (GABA) on the electric activities of pain-excited neurons (PEN) in nucleus accumbens (NAc) in central nervous system (CNS) of morphine-dependent rats."7.74Modulation of gamma-aminobutyric acid on painful sense in central nervous system of morphine-dependent rats. ( Li, X; Xu, MY; Xu, Y, 2008)
"After GABA or the GABA(A)-receptor antagonist, bicuculline (Bic), was injected into cerebral ventricles or NAc, right sciatic nerve was stimulated by electrical pulses, which was considered as traumatic pain stimulation."7.74Modulation of gamma-aminobutyric acid on painful sense in central nervous system of morphine-dependent rats. ( Li, X; Xu, MY; Xu, Y, 2008)
"Metabolic consequences of morphine dependence and withdrawal intervention have not been well explored."3.78¹H NMR-based metabonomic analysis of brain in rats of morphine dependence and withdrawal intervention. ( Bu, Q; Cen, X; Deng, P; Deng, Y; Hu, C; Hu, Z; Li, Y; Shao, X; Xu, Y; Yan, G; Zhao, J; Zhao, Y; Zhou, J; Zhu, R, 2012)
"To observe the effects of gamma-aminobutyric acid (GABA) on the electric activities of pain-excited neurons (PEN) in nucleus accumbens (NAc) in central nervous system (CNS) of morphine-dependent rats."3.74Modulation of gamma-aminobutyric acid on painful sense in central nervous system of morphine-dependent rats. ( Li, X; Xu, MY; Xu, Y, 2008)
"After GABA or the GABA(A)-receptor antagonist, bicuculline (Bic), was injected into cerebral ventricles or NAc, right sciatic nerve was stimulated by electrical pulses, which was considered as traumatic pain stimulation."3.74Modulation of gamma-aminobutyric acid on painful sense in central nervous system of morphine-dependent rats. ( Li, X; Xu, MY; Xu, Y, 2008)
"6-fold shift in morphine's dose-response curve."1.33Attenuation of morphine tolerance by intrathecal gabapentin is associated with suppression of morphine-evoked excitatory amino acid release in the rat spinal cord. ( Lee, MS; Lin, JA; Lin, SL; Wen, ZH; Wong, CS; Wu, CT; Yeh, CC, 2005)
"Morphine addiction has been shown to result from neural adaptations produced by repeated drug exposure, but the mechanism is still unclear."1.32Decrease of morphine-induced reward effects and withdrawal symptoms in mice overexpressing gamma-aminobutyric acid transporter I. ( Fei, J; Guo, LH; Hu, JH; Jiang, J; Ma, YH; Mei, ZT; Yang, N; Zhang, XY; Zhou, XG, 2003)
"Morphine dependence was assessed with naltrexone."1.26The influence of a GABA transaminase inhibitor, gamma-vinyl GABA, on voluntary morphine consumption in the rat. ( Buckett, WR, 1981)

Research

Studies (38)

TimeframeStudies, this research(%)All Research%
pre-199015 (39.47)18.7374
1990's5 (13.16)18.2507
2000's10 (26.32)29.6817
2010's7 (18.42)24.3611
2020's1 (2.63)2.80

Authors

AuthorsStudies
Davoudi, M1
Vijeepallam, K1
Azizi, H1
Mirnajafi-Zadeh, J1
Semnanian, S1
Luster, BR1
Cogan, ES1
Schmidt, KT1
Pati, D1
Pina, MM1
Dange, K1
McElligott, ZA1
Hasanein, P1
Shakeri, S1
Lee, BH1
Zhao, RJ1
Lee, BG1
Kim, NJ1
Yang, CH1
Kim, HY1
Gwak, YS1
Lim, SC1
Kim, JS1
Lee, YK1
Lee, HJ1
Zhang, L1
Cui, Y1
Wang, YC1
Yin, H1
Zheng, JM1
Huang, L1
Zhao, ZW1
Li, J1
Liu, QF1
Li, L1
Guo, YQ1
Li, X2
Mou, ZD1
Wang, X1
Du, GZ1
Xu, Y2
Xu, MY1
Lelevich, SV1
Lelevich, VV1
Novokshonov, AA1
Madhavan, A1
He, L1
Stuber, GD1
Bonci, A1
Whistler, JL1
Hu, Z1
Deng, Y1
Hu, C1
Deng, P1
Bu, Q1
Yan, G1
Zhou, J1
Shao, X1
Zhao, J1
Li, Y1
Zhu, R1
Zhao, Y1
Cen, X1
Hack, SP1
Vaughan, CW1
Christie, MJ1
Hu, JH1
Yang, N1
Ma, YH1
Zhou, XG1
Zhang, XY1
Jiang, J1
Mei, ZT1
Fei, J1
Guo, LH1
Leventhal, L1
Cosmi, S1
Deecher, D1
Lin, JA1
Lee, MS1
Wu, CT1
Yeh, CC1
Lin, SL1
Wen, ZH1
Wong, CS1
Dunbar, SA1
Karamian, I1
Yeatman, A1
Zhang, J1
DeFeudis, FV1
Smith, JE1
Co, C1
Freeman, ME1
Sands, MP1
Lane, JD1
Ticku, MK1
Huffman, RD1
Sivam, SP1
Ho, IK1
van der Laan, JW2
Jacobs, AW1
Bruinvels, J2
Buckett, WR3
Suzuki, T2
Tsuda, M1
Narita, M1
Funada, M1
Mizoguchi, H1
Misawa, M1
Varani, K1
Beani, L2
Bianchi, C2
Borea, PA1
Simonato, M2
Sayin, U1
Atasoy, S1
Uzbay, IT1
Aricioğlu-Kartal, F1
Koyuncuoğlu, H1
Zarrindast, MR1
Mousa-Ahmadi, E1
Schoffelmeer, AN1
Wardeh, G1
Vanderschuren, LJ1
Heikkilä, AT1
Echenko, O1
Uusi-Oukari, M1
Sinkkonen, ST1
Korpi, ER1
Volicer, L1
Puri, SK1
Choma, P1
Rix, KJ1
Davidson, N1
Kuriyama, K1
Yoneda, Y1
Davies, J1
Uebersax, R1
Ruetsch, YA1
Rönnbäck, L1
Hansson, E1
Cupello, A1
Rapallino, MV1
Zeuchner, J1
Rosengren, L1
Antonelli, T1
Rando, S1
Tanganelli, S1

Reviews

2 reviews available for gamma-aminobutyric acid and Morphine Abuse

ArticleYear
[Modification of morphine dependence under chronic pain and its mechanism].
    Yakugaku zasshi : Journal of the Pharmaceutical Society of Japan, 2001, Volume: 121, Issue:12

    Topics: Animals; Brain; Chronic Disease; gamma-Aminobutyric Acid; Male; Morphine Dependence; Pain; Rats; Rat

2001
gamma-aminobutyric acid in alcohol, barbiturate and morphine dependence: a review.
    The British journal of addiction to alcohol and other drugs, 1977, Volume: 72, Issue:2

    Topics: Alcoholism; Aminobutyrates; Animals; Barbiturates; Brain; Ethanol; gamma-Aminobutyric Acid; Humans;

1977

Other Studies

36 other studies available for gamma-aminobutyric acid and Morphine Abuse

ArticleYear
PKC inhibitor reversed the suppressive effect of orexin-A on IPSCs of locus coeruleus neurons in naloxone-induced morphine withdrawal.
    Journal of neural transmission (Vienna, Austria : 1996), 2019, Volume: 126, Issue:11

    Topics: Animals; gamma-Aminobutyric Acid; Indoles; Inhibitory Postsynaptic Potentials; Locus Coeruleus; Male

2019
Inhibitory transmission in the bed nucleus of the stria terminalis in male and female mice following morphine withdrawal.
    Addiction biology, 2020, Volume: 25, Issue:3

    Topics: Analgesics, Opioid; Animals; Female; gamma-Aminobutyric Acid; Inhibitory Postsynaptic Potentials; Ma

2020
Pregabalin role in inhibition of morphine analgesic tolerance and physical dependency in rats.
    European journal of pharmacology, 2014, Nov-05, Volume: 742

    Topics: Analgesics, Opioid; Animals; Disease Models, Animal; Dose-Response Relationship, Drug; Drug Toleranc

2014
Acupuncture Suppresses Morphine Craving in Progressive Ratio Through the GABA System.
    Journal of acupuncture and meridian studies, 2015, Volume: 8, Issue:4

    Topics: Acupuncture Points; Acupuncture Therapy; Animals; Craving; gamma-Aminobutyric Acid; Humans; Male; Mo

2015
RETRACTED: Exploring the mechanism by which accumbal deep brain stimulation attenuates morphine-induced reinstatement through manganese-enhanced MRI and pharmacological intervention.
    Experimental neurology, 2017, Volume: 290

    Topics: Animals; Conditioning, Operant; Contrast Media; Deep Brain Stimulation; GABA Antagonists; gamma-Amin

2017
Injection of Toll-like receptor 4 siRNA into the ventrolateral periaqueductal gray attenuates withdrawal syndrome in morphine-dependent rats.
    Archives italiennes de biologie, 2016, Dec-01, Volume: 154, Issue:4

    Topics: Animals; Blotting, Western; Chromatography, High Pressure Liquid; Disease Models, Animal; Enzyme-Lin

2016
Modulation of gamma-aminobutyric acid on painful sense in central nervous system of morphine-dependent rats.
    Neuroscience bulletin, 2008, Volume: 24, Issue:5

    Topics: Action Potentials; Animals; Bicuculline; Disease Models, Animal; Drug Administration Schedule; Elect

2008
Neurotransmitter mechanisms of morphine withdrawal syndrome.
    Bulletin of experimental biology and medicine, 2009, Volume: 148, Issue:2

    Topics: Animals; Brain Stem; Cerebellum; Chromatography, High Pressure Liquid; Dopamine; gamma-Aminobutyric

2009
micro-Opioid receptor endocytosis prevents adaptations in ventral tegmental area GABA transmission induced during naloxone-precipitated morphine withdrawal.
    The Journal of neuroscience : the official journal of the Society for Neuroscience, 2010, Mar-03, Volume: 30, Issue:9

    Topics: Adaptation, Physiological; Animals; Chimera; Cyclic AMP; Disease Models, Animal; Endocytosis; gamma-

2010
¹H NMR-based metabonomic analysis of brain in rats of morphine dependence and withdrawal intervention.
    Behavioural brain research, 2012, May-16, Volume: 231, Issue:1

    Topics: Animals; Brain; Energy Metabolism; gamma-Aminobutyric Acid; Glutamic Acid; Glutamine; Magnetic Reson

2012
Modulation of GABA release during morphine withdrawal in midbrain neurons in vitro.
    Neuropharmacology, 2003, Volume: 45, Issue:5

    Topics: Action Potentials; Adenosine; Affinity Labels; Animals; Colforsin; Cyclic AMP; Dipyridamole; Dose-Re

2003
Decrease of morphine-induced reward effects and withdrawal symptoms in mice overexpressing gamma-aminobutyric acid transporter I.
    Journal of neuroscience research, 2003, Nov-15, Volume: 74, Issue:4

    Topics: Adaptation, Physiological; Animals; Brain; Carrier Proteins; Conditioning, Psychological; GABA Antag

2003
Effect of calcium channel modulators on temperature regulation in ovariectomized rats.
    Pharmacology, biochemistry, and behavior, 2005, Volume: 80, Issue:3

    Topics: Amines; Animals; Body Temperature Regulation; Calcium Channel Blockers; Calcium Channels; Cyclohexan

2005
Attenuation of morphine tolerance by intrathecal gabapentin is associated with suppression of morphine-evoked excitatory amino acid release in the rat spinal cord.
    Brain research, 2005, Aug-30, Volume: 1054, Issue:2

    Topics: Amines; Analgesics; Analysis of Variance; Animals; Cyclohexanecarboxylic Acids; Drug Interactions; D

2005
Effects of recurrent withdrawal on spinal GABA release during chronic morphine infusion in the rat.
    European journal of pharmacology, 2006, Mar-27, Volume: 535, Issue:1-3

    Topics: Analgesics, Opioid; Analysis of Variance; Animals; gamma-Aminobutyric Acid; Glutamates; Infusion Pum

2006
gamma-Aminobutyric acid-ergic analgesia: implications for gamma-aminobutyric acid-ergic therapy for drug addictions.
    Drug and alcohol dependence, 1984, Volume: 14, Issue:2

    Topics: Animals; Baclofen; Brain; Drug Tolerance; Endorphins; GABA Antagonists; gamma-Aminobutyric Acid; Hum

1984
Neurotransmitter turnover in rat striatum is correlated with morphine self-administration.
    Nature, 1980, Sep-11, Volume: 287, Issue:5778

    Topics: Animals; Aspartic Acid; Corpus Striatum; Dopamine; gamma-Aminobutyric Acid; Glutamates; Glycine; Hum

1980
The effects of acute and chronic morphine administration on GABA receptor binding.
    European journal of pharmacology, 1980, Nov-21, Volume: 68, Issue:2

    Topics: Animals; Binding Sites; Brain; gamma-Aminobutyric Acid; Humans; Male; Morphine; Morphine Dependence;

1980
Influence of morphine dependence on GABA-stimulated benzodiazepine binding to mouse brain synaptic membranes.
    European journal of pharmacology, 1982, Apr-23, Volume: 79, Issue:3-4

    Topics: Animals; Brain; Flunitrazepam; gamma-Aminobutyric Acid; Humans; In Vitro Techniques; Kinetics; Male;

1982
Effects of branched-chain fatty acids on GABA-degradation and behavior: further evidence for a role of GABA in quasi-morphine abstinence behavior.
    Pharmacology, biochemistry, and behavior, 1980, Volume: 13, Issue:6

    Topics: 4-Aminobutyrate Transaminase; Animals; Behavior, Animal; Brain Chemistry; Caproates; Dose-Response R

1980
A dual role for GABA in quasi-morphine abstinence behavior induced by di-n-propylacetate involving both initiation and termination.
    Psychopharmacology, 1981, Volume: 74, Issue:2

    Topics: Animals; Behavior, Animal; Drug Tolerance; gamma-Aminobutyric Acid; Humans; Hydroxylation; Male; Mor

1981
The influence of a GABA transaminase inhibitor, gamma-vinyl GABA, on voluntary morphine consumption in the rat.
    Psychopharmacology, 1981, Volume: 75, Issue:2

    Topics: 4-Aminobutyrate Transaminase; Aminocaproates; Animals; Brain; gamma-Aminobutyric Acid; Humans; Male;

1981
Irreversible inhibitors of GABA transaminase induce antinociceptive effects and potentiate morphine.
    Neuropharmacology, 1980, Volume: 19, Issue:8

    Topics: 4-Aminobutyrate Transaminase; Alkynes; Aminocaproates; Animals; Ataxia; Brain Chemistry; Drug Synerg

1980
Diazepam pretreatment suppresses morphine withdrawal signs in the mouse.
    Life sciences, 1996, Volume: 58, Issue:4

    Topics: Adrenergic alpha-Agonists; Analgesics, Opioid; Animals; Anti-Anxiety Agents; Anticonvulsants; Cerebr

1996
Changes in [3H]-UK 14304 binding to alpha 2-adrenoceptors in morphine-dependent guinea-pigs.
    British journal of pharmacology, 1995, Volume: 116, Issue:8

    Topics: Adrenergic alpha-Agonists; Animals; Brimonidine Tartrate; Cerebral Cortex; Dose-Response Relationshi

1995
Gamma-vinyl-GABA potentiates the severity of naloxone-precipitated abstinence signs in morphine-dependent rats.
    Pharmacological research, 1998, Volume: 38, Issue:1

    Topics: Animals; Anticonvulsants; Drug Synergism; gamma-Aminobutyric Acid; Male; Morphine Dependence; Naloxo

1998
Effects of GABAergic system on naloxone-induced jumping in morphine-dependent mice.
    European journal of pharmacology, 1999, Sep-24, Volume: 381, Issue:2-3

    Topics: Animals; Baclofen; Behavior, Animal; Bicuculline; GABA Agonists; GABA Antagonists; GABA-A Receptor A

1999
Morphine acutely and persistently attenuates nonvesicular GABA release in rat nucleus accumbens.
    Synapse (New York, N.Y.), 2001, Volume: 42, Issue:2

    Topics: Analgesics; Animals; Benzeneacetamides; Carrier Proteins; Dopamine; Dose-Response Relationship, Drug

2001
Morphine withdrawal increases expression of GABA(A) receptor epsilon subunit mRNA in locus coeruleus neurons.
    Neuroreport, 2001, Sep-17, Volume: 12, Issue:13

    Topics: Animals; Drug Interactions; gamma-Aminobutyric Acid; Gene Expression; Locus Coeruleus; Male; Morphin

2001
Cyclic GMP and GABA levels in rat striatum and cerebellum during morphine withdrawal: effect of apomorphine.
    Neuropharmacology, 1977, Volume: 16, Issue:11

    Topics: Aminobutyrates; Animals; Apomorphine; Brain Chemistry; Cerebellum; Corpus Striatum; Cyclic GMP; gamm

1977
The influence of morphine dependence on some specific effects mediated by monoaminergic and GABAergic systems.
    Psychopharmacology, 1979, Volume: 66, Issue:3

    Topics: Animals; Apomorphine; Biogenic Amines; Body Temperature; Dopamine; gamma-Aminobutyric Acid; Humans;

1979
Morphine induced alterations of gamma-aminobutyric acid and taurine contents and L-glutamate decarboxylase activity in rat spinal cord and thalamus: possible correlates with analgesic action of morphine.
    Brain research, 1978, Jun-09, Volume: 148, Issue:1

    Topics: Aminobutyrates; Analgesia; Animals; Carboxy-Lyases; Cerebral Aqueduct; gamma-Aminobutyric Acid; Gang

1978
Effects of morphine and naloxone on Renshaw cells and spinal interneurones in morphine dependent and non-dependent rats.
    Brain research, 1976, Aug-27, Volume: 113, Issue:2

    Topics: Acetylcholine; Animals; Dextrorphan; Evoked Potentials; gamma-Aminobutyric Acid; Glutamates; Glycine

1976
[Alcoholism: is there a rational explanation for and a specific treatment of the alcohol-dependent patient?].
    Revue medicale de la Suisse romande, 1990, Volume: 110, Issue:9

    Topics: Alcoholism; gamma-Aminobutyric Acid; Humans; Models, Biological; Morphine Dependence

1990
Neurotransmitter uptake in various brain regions of chronically morphinized rats.
    Neurochemical research, 1986, Volume: 11, Issue:2

    Topics: Administration, Oral; Animals; Brain; Brain Stem; Cerebral Cortex; Corpus Striatum; gamma-Aminobutyr

1986
Cortical acetylcholine release is increased and gamma-aminobutyric acid outflow is reduced during morphine withdrawal.
    British journal of pharmacology, 1986, Volume: 89, Issue:4

    Topics: Acetylcholine; Animals; Atropine; Cerebral Cortex; Diazepam; Female; gamma-Aminobutyric Acid; Guinea

1986