Abstinence from repeated amphetamine treatment induces depressive-like behaviors and oxidative damage in rat brain

[1]  A. Carvalho,et al.  Effects of alpha‐lipoic acid in an animal model of mania induced by d‐amphetamine , 2012, Bipolar disorders.

[2]  W. Honer,et al.  Mood stabilizer lithium inhibits amphetamine-increased 4-hydroxynonenal-protein adducts in rat frontal cortex. , 2012, The international journal of neuropsychopharmacology.

[3]  G. Lenaz Mitochondria and reactive oxygen species. Which role in physiology and pathology? , 2012, Advances in experimental medicine and biology.

[4]  G. Forster,et al.  Withdrawal from chronic amphetamine produces persistent anxiety-like behavior but temporally-limited reductions in monoamines and neurogenesis in the adult rat dentate gyrus , 2010, Neuropharmacology.

[5]  G. Forster,et al.  Increased anxiety-like behavior of rats during amphetamine withdrawal is reversed by CRF2 receptor antagonism , 2010, Behavioural Brain Research.

[6]  R. Roesler,et al.  Effects of a gastrin-releasing peptide receptor antagonist on d-amphetamine-induced oxidative stress in the rat brain , 2010, Journal of Neural Transmission.

[7]  A. Vercesi,et al.  Mitochondria and reactive oxygen species. , 2009, Free radical biology & medicine.

[8]  A. Nunomura,et al.  RNA oxidation in Alzheimer disease and related neurodegenerative disorders , 2009, Acta Neuropathologica.

[9]  S. Robertson,et al.  A Closer Look at Amphetamine-Induced Reverse Transport and Trafficking of the Dopamine and Norepinephrine Transporters , 2009, Molecular Neurobiology.

[10]  B. Frey,et al.  Effects of mood stabilizers on DNA damage in an animal model of mania. , 2008, Journal of psychiatry & neuroscience : JPN.

[11]  J. Shih,et al.  Monoamine oxidase inactivation: from pathophysiology to therapeutics. , 2008, Advanced drug delivery reviews.

[12]  B. Frey,et al.  Effects of lithium and valproate on serum and hippocampal neurotrophin-3 levels in an animal model of mania. , 2008, Journal of psychiatric research.

[13]  B. Yamamoto,et al.  A rapid oxidation and persistent decrease in the vesicular monoamine transporter 2 after methamphetamine , 2007, Journal of neurochemistry.

[14]  Zhongwei Li,et al.  RNA damage and surveillance under oxidative stress , 2006, IUBMB life.

[15]  B. Frey,et al.  Effects of lithium and valproate on amphetamine-induced oxidative stress generation in an animal model of mania. , 2006, Journal of psychiatry & neuroscience : JPN.

[16]  R. Rothman,et al.  Balance between Dopamine and Serotonin Release Modulates Behavioral Effects of Amphetamine‐Type Drugs , 2006, Annals of the New York Academy of Sciences.

[17]  B. Frey,et al.  Increased oxidative stress after repeated amphetamine exposure: possible relevance as a model of mania. , 2006, Bipolar disorders.

[18]  R. Knight,et al.  PSYCHOLOGICAL SCIENCE Research Article Controlling the Integration of Emotion and Cognition The Role of Frontal Cortex in Distinguishing Helpful From Hurtful Emotional Information , 2022 .

[19]  R. Knight,et al.  The Role of Frontal Cortex in Distinguishing Helpful From Hurtful Emotional Information , 2006 .

[20]  D. Brégeon,et al.  Hypothetical role of RNA damage avoidance in preventing human disease. , 2005, Mutation research.

[21]  D. Petersen,et al.  Reactions of 4-hydroxynonenal with proteins and cellular targets. , 2004, Free radical biology & medicine.

[22]  Gal Richter-Levin,et al.  The Amygdala, the Hippocampus, and Emotional Modulation of Memory , 2004, The Neuroscientist : a review journal bringing neurobiology, neurology and psychiatry.

[23]  M. Srisurapanont,et al.  Treatment for amphetamine withdrawal. , 2001, The Cochrane database of systematic reviews.

[24]  D. Kupfer,et al.  Amphetamine-induced dopamine release in human ventral striatum correlates with euphoria , 2001, Biological Psychiatry.

[25]  P. Maher,et al.  Signaling by reactive oxygen species in the nervous system , 2000, Cellular and Molecular Life Sciences CMLS.

[26]  L. Facci,et al.  Excitotoxicity, Oxidative Stress, and the Neuroprotective Potential of Melatonin , 1999, Annals of the New York Academy of Sciences.

[27]  F. Weiss,et al.  Opposite effects of stress on dopamine release in the limbic system of drug-naive and chronically amphetamine-treated rats. , 1997, European journal of pharmacology.

[28]  G F Koob,et al.  Drug abuse: hedonic homeostatic dysregulation. , 1997, Science.

[29]  M. Wolf,et al.  Expression of dopamine transporter and vesicular monoamine transporter 2 mRNAs in rat midbrain after repeated amphetamine administration. , 1997, Brain research. Molecular brain research.

[30]  Y. Yamanaka,et al.  Changes in monoamine oxidase activity in mouse brain associated with d-methamphetamine dependence and withdrawal. , 1993, Biochemical pharmacology.

[31]  G. Gessa,et al.  Marked inhibition of mesolimbic dopamine release: a common feature of ethanol, morphine, cocaine and amphetamine abstinence in rats. , 1992, European journal of pharmacology.

[32]  T. Robinson,et al.  Long-lasting effects of escalating doses of d-amphetamine on brain monoamines, amphetamine-induced stereotyped behavior and spontaneous nocturnal locomotion , 1987, Pharmacology Biochemistry and Behavior.

[33]  T. Silverstone,et al.  Dextroamphetamine-induced arousal in human subjects as a model for mania , 1986, Psychological Medicine.

[34]  G. Paxinos,et al.  The Rat Brain in Stereotaxic Coordinates , 1983 .

[35]  B. Jacobs,et al.  Chronic amphetamine administration to cats: behavioral and neurochemical evidence for decreased central serotonergic function. , 1979, The Journal of pharmacology and experimental therapeutics.