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Brain Res. 2006 Jan 5;1067(1):1-12. Epub 2005 Dec 22.

Rodent BDNF genes, novel promoters, novel splice variants, and regulation by cocaine.

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  • 1Molecular Neurobiology Branch, National Institute on Drug Abuse-Intramural Research Program (NIDA-IRP), NIH, Department of Health and Human Services (DHHS), Box 5180, Baltimore, MD 21224, USA.

Abstract

Results from studies using molecular and genetic methods in humans and rodents suggest that brain-derived neurotrophic factor (BDNF) is involved in the behavioral effects of abused drugs, making understanding of its genomic structure and regulation of substantial interest. Recently, we have reported that the human BDNF gene contains seven upstream exons that can each be spliced independently to the major BDNF coding exon to form diverse bipartite BDNF transcripts. We also identified a novel "BDNFOS" gene that is transcribed to produce alternatively spliced natural antisense transcripts (NATs); its fifth exon overlaps with the protein coding exon VIII of human BDNF. To better understand BDNF's genomic structure and differential regulation, we now describe the rodent BDNF gene and transcripts. This gene includes six bipartite transcripts that are generated by six independently transcribed exons, each of which is spliced to a major coding exon and a tripartite transcript that is composed of two upstream exons and one coding exon. In addition, we found no evidence for antisense, opposite strand BDNFOS gene transcripts in mice or rats. The BDNF rodent splice variants display specific patterns of differential expression in different brain regions and peripheral tissues. Acute cocaine administration increased striatal expression of a specific BDNF4 splice variant by up to 5-fold. Interestingly, however, neither experimenter- nor self-administered chronic cocaine administration enhanced striatal BDNF expression. These data suggest a role of specific BDNF promoter regions and regulatory sequences in stimulant-induced alterations in BDNF expression, and in the alterations that changed BDNF expression is likely to confer in the brain.

PMID:
16376315
DOI:
10.1016/j.brainres.2005.10.004
[PubMed - indexed for MEDLINE]
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