Kaia Palm scite author profile

Brain-derived neurotrophic factor (BDNF) has important functions in the development of the nervous system and in brain plasticity-related processes such as memory, learning, and drug addiction. Despite the fact that the function and regulation of rodent BDNF gene expression have received close attention during the last decade, knowledge of the structural organization of mouse and rat BDNF gene has remained incomplete. We have identified and characterized several mouse and rat BDNF transcripts containing novel 5 0 untranslated exons and introduced a new numbering system for mouse and rat BDNF exons. According to our results both mouse and rat BDNF gene consist of eight 5 0 untranslated exons and one protein coding 3 0 exon. Transcription of the gene results in BDNF transcripts containing one of the eight 5 0 exons spliced to the protein coding exon and in a transcript containing only 5 0 extended protein coding exon. We also report the distinct tissue-specific expression profiles of each of the mouse and rat 5 0 exon-specific transcripts in different brain regions and nonneural tissues. In addition, we show that kainic acid-induced seizures that lead to changes in cellular Ca 2+ levels as well as inhibition of DNA methylation and histone deacetylation contribute to the differential regulation of the expression of BDNF transcripts. Finally, we confirm that mouse and rat BDNF gene loci do not encode antisense mRNA transcripts, suggesting that mechanisms of regulation for rodent and human BDNF genes differ substantially. V V C 2006 Wiley-Liss, Inc.

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Multiple promoters direct tissue-specific expression of the rat BDNF gene

Timmusk

Palm

Metsis

et al. 1993

Neuron

801

661

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Dissecting the human BDNF locus: Bidirectional transcription, complex splicing, and multiple promoters

et al. 2007

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Brain-derived neurotrophic factor (BDNF), a member of the nerve growth factor family of neurotrophins, has central roles in the development, physiology, and pathology of the nervous system. We have elucidated the structure of the human BDNF gene, identified alternative transcripts, and studied their expression in adult human tissues and brain regions. In addition, the transcription initiation sites for human BDNF transcripts were determined and the activities of BDNF promoters were analyzed in transient overexpression assays. Our results show that the human BDNF gene has 11 exons and nine functional promoters that are used tissue and brain-region specifically. Furthermore, noncoding natural antisense RNAs that display complex splicing and expression patterns are transcribed in the BDNF gene locus from the antiBDNF gene (approved gene symbol BDNFOS). We show that BDNF and antiBDNF transcripts form dsRNA duplexes in the brain in vivo, suggesting an important role for antiBDNF in regulating BDNF expression in human.

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Kaia Palm

Mouse and rat BDNF gene structure and expression revisited

Multiple promoters direct tissue-specific expression of the rat BDNF gene

Dissecting the human BDNF locus: Bidirectional transcription, complex splicing, and multiple promoters

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