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References

  • Berke J. D. and Hyman S. E. (2000) Addiction, dopamine, and the molecular mechanisms of memory. Neuron 25, 515532.
  • Berke J. D., Paletzki R. F., Aronson G. J., Hyman S. E. and Gerfen C. R. (1998) A complex program of striatal gene expression induced by dopaminergic stimulation. J. Neurosci. 18, 53015310.
  • Cadet J. L., Jayanthi S., McCoy M. T., Vawter M. and Ladenheim B. (2001) Temporal profiling of methamphetamine-induced changes in gene expression in the mouse brain: evidence from cDNA array. Synapse 41, 4048.
  • Freeman W. M., Brebner K., Lynch W. J., Robertson D. J., Roberts D. C. and Vrana K. E. (2001a) Cocaine-responsive gene expression changes in rat hippocampus. Neuroscience 108, 371380.
  • Freeman W. M., Nader M. A., Nader S. H., Robertson D. J., Gioia L., Mitchell S. M., Daunais J. B., Porrino L. J., Friedman D. P. and Vrana K. E. (2001b) Chronic cocaine-mediated changes in non-human primate nucleus accumbens gene expression. J. Neurochem. 77, 542549.
  • Hope B., Kosofsky B., Hyman S. E. and Nestler E. J. (1992) Regulation of immediate early gene expression and AP-1 binding in the rat nucleus accumbens by chronic cocaine. Proc. Natl Acad. Sci. USA 89, 57645768.
  • Jayanthi S., Deng X., Bordelon M., McCoy M. T. and Cadet J. L. (2001) Methamphetamine causes differential regulation of pro-death and anti- death Bcl-2 genes in the mouse neocortex. Faseb J. 15, 17451752.
  • Kraft M., Noailles P. and Angulo J. A. (2001) Substance P modulates cocaine-evoked dopamine overflow in the striatum of the rat brain. Ann. N Y Acad. Sci. 937, 121131.
  • Kuzmin A. and Johansson B. (1999) Expression of c-fos, NGFI-A and secretogranin II mRNA in brain regions during initiation of cocaine self-administration in mice. Eur. J. Neurosci. 11, 36943700.
  • Lindefors N. (1992) Amphetamine and haloperidol modulate preprotachykinin A mRNA expression in rat nucleus accumbens and caudate-putamen. Brain Res. Mol. Brain Res. 13, 151154.
  • Lu D. and Das D. K. (1993) Induction of differential heat shock gene expression in heart, lung, liver, brain and kidney by a sympathomimetic drug, amphetamine. Biochem. Biophys. Res. Commun. 192, 808812.
  • Maeno Y., Iwasa M., Inoue H., Koyama H., Matoba R. and Nagao M. (2000) Direct effects of methamphetamine on hypertrophy and microtubules in cultured adult rat ventricular myocytes. Forensic Sci. Int. 113, 239243.
  • Miller E. K., Raese J. D. and Morrison-Bogorad M. (1991) Expression of heat shock protein 70 and heat shock cognate 70 messenger RNAs in rat cortex and cerebellum after heat shock or amphetamine treatment. J. Neurochem. 56, 20602071.
  • Persico A. M., Schindler C. W., O'Hara B. F., Brannock M. T. and Uhl G. R. (1993) Brain transcription factor expression: effects of acute and chronic amphetamine and injection stress. Brain Res. Mol. Brain Res. 20, 91100.
  • Persico A. M., Schindler C. W., Zaczek R., Brannock M. T. and Uhl G. R. (1995) Brain transcription factor gene expression, neurotransmitter levels, and novelty response behaviors: alterations during rat amphetamine withdrawal and following chronic injection stress. Synapse 19, 212227.
  • Robinson T. E. and Kolb B. (1997) Persistent structural modifications in nucleus accumbens and prefrontal cortex neurons produced by previous experience with amphetamine. J. Neurosci. 17, 84918497.
  • Sokolov B. P. (1998) Expression of NMDAR1, GluR1, GluR7, and KA1 glutamate receptor mRNAs is decreased in frontal cortex of ‘neuroleptic-free’ schizophrenics: evidence on reversible up-regulation by typical neuroleptics. J. Neurochem. 71, 24542464.
  • Takaki M., Ujike H., Kodama M., Takehisa Y., Yamamoto A. and Kuroda S. (2001) Increased expression of synaptophysin and stathmin mRNAs after methamphetamine administration in rat brain. Neuroreport 12, 10551060.
  • Thiriet N., Zwiller J. and Ali S. F. (2001) Induction of the immediate early genes egr-1 and c-fos by methamphetamine in mouse brain. Brain Res. 919, 3140.
  • Ujike H. (2001) Advanced findings on the molecular mechanisms for behavioral sensitization to psychostimulants (in Japanese). Nippon Yakurigaku Zasshi 117, 512.
  • Ujike H., Takaki M., Kodama M. and Kuroda S. (2002) Gene expression related to synaptogenesis, neuritogenesis, and MAP kinase in behavioral sensitization to psychostimulants. Ann. NY Acad. Sci. 965, 5567.
  • Wang X. B., Funada M., Imai Y., Revay R. S., Ujike H., Vandenbergh D. J. and Uhl G. R. (1997) rGbeta1: a psychostimulant-regulated gene essential for establishing cocaine sensitization. J. Neurosci. 17, 59936000.
  • Xie T., Tong L., Barrett T., Yuan J., Hatzidimitriou G., McCann U. D., Becker K. G., Donovan D. M. and Ricaurte G. A. (2002) Changes in gene expression linked to methamphetamine-induced dopaminergic neurotoxicity. J. Neurosci. 22, 274283.