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      The brain-specific Neural Zinc Finger transcription factor 2b (NZF-2b/7ZFMyt1) causes suppression of cocaine-induced locomotor activity.

      Neurobiology of Disease
      Animals, Brain, drug effects, physiology, Brain-Derived Neurotrophic Factor, metabolism, Cocaine, pharmacology, Dopamine Uptake Inhibitors, Gene Knockdown Techniques, Gene Transfer Techniques, Genetic Vectors, Inverted Repeat Sequences, Lentivirus, genetics, Locomotion, Male, Nerve Tissue Proteins, Neurons, Nucleus Accumbens, RNA, RNA, Messenger, Rats, Rats, Wistar, Repressor Proteins, Transcription Factors

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          Abstract

          Chronic cocaine induces high expression of the brain-specific Neural-Zinc-Finger transcription factor-2b (NZF-2b/7ZFMyt1), particularly in the mesolimbic dopaminergic pathway, resulting in a 11-fold increase in NZF-2b/7ZFMyt1 expression in the Nucleus Accumbens (NAc). Overexpression of this gene in the NAc with a NZF-2b/7ZFMyt1-expressing lentivirus resulted in >55% decrease in locomotor activity upon chronic cocaine administration, compared to control animals. In contrast knocking-down the gene in the NAc with lentiviruses expressing shRNAs against NZF-2b/7ZFMyt1 induced strong hyperlocomotor activity upon cocaine. Strong inhibition of BDNF is observed upon NZF-2b/7ZFMyt1 expression, concomitant with strong induction of transcription factors REST1 (RE silencing transcription factor-1) and NAC1, probably leading to regulation of gene expression by interaction with histone deacetylases. These changes lead to decreased responsiveness of the animal to the locomotor-activating effects of cocaine, indicating that NZF-2b/7ZFMyt1 expression plays an important role in phenotypic changes induced by the drug.

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