Brain Insults in Rats Induce Increased Expression of the BDNF Gene through Differential Use of Multiple Promoters

The rat brain-derived neurotrophic factor (BDNF) gene consists of four short 5-exons linked to separate promoters and one 3'-exon encoding the mature BDNF protein. Using in situ hybridization we demonstrate here that kindling-induced seizures, cerebral ischaemia and insulin-induced hypoglycaemic coma increase BDNF mRNA levels through insult- and region-specific usage of three promoters within the BDNF gene. Both brief (2 min) and longer (10 min) periods of forebrain ischaemia induced significant and major increases only of exon III mRNA in the dentate gyrus. Following hypoglycaemic coma (1 and 30 min), exon III mRNA was markedly elevated in the dentate gyrus and, in addition, exon I mRNA showed a moderate increase. Single and recurrent (n = 40) hippocampal seizures significantly increased expression of exon I, II and III mRNAs in the dentate gyrus granule cells. After recurrent seizures, including generalized convulsions, there were also major increases of both exon I and III mRNAs in the CA3 region, amygdala, piriform cortex and neocortex, whereas in the hippocampal CA1 sector marked elevations were detected only for exon III mRNA. The insults had no effect on the level of exon IV mRNA in the brain. The region- and insult-specific pattern of promoter activation might be of importance for the effectiveness of protective responses as well as for the regulation of plastic changes following brain insults.     

Hippocampal synaptic pathology in schizophrenia, bipolar disorder and major depression: a study of complexin mRNAs

Complexin (cx) I and cx II are synaptic proteins preferentially expressed by inhibitory and excitatory hippocampal neurons respectively. We previously reported decreased hippocampal formation cx mRNA and protein expression in schizophrenia, with a greater loss of cx II than cx I. The present in situ hybridization study was both an attempt at replication, and an extension to include bipolar and unipolar mood disorders, using sections from the Stanley Foundation brain series. In schizophrenia, both mRNAs were decreased in some hippocampal subfields, especially CA4, but were preserved in subiculum. The cx II/cx I mRNA ratio was unchanged. In bipolar disorder, the mRNAs were reduced in CA4, subiculum and parahippocampal gyrus, with the deficit in subiculum being diagnostically specific. No alterations in cx mRNAs were found in major depression. Treatment of rats with antipsychotics (haloperidol or chlorpromazine) for 2 weeks had no effect on hippocampal cx mRNAs. These data replicate the finding of decreased cx I and cx II expression in the hippocampus in schizophrenia and show a similar or greater abnormality in bipolar disorder. Non-replication of the cx II > cx I mRNA loss in schizophrenia means that the hypothesis of a preferential involvement of excitatory connections was not supported. The results extend the emerging evidence that altered circuitry may be a component of the neuroanatomy of both schizophrenia and bipolar mood disorder.     

Induction of brain derived neurotrophic factor mRNA by seizures in neonatal and juvenile rat brain

Seizures have been shown to regulate neurotrophin expression in adult mammalian brain. However, there has been some controversy as to whether seizures affect neurotrophin expression in very immature brain. In the present study, we have examined the effects of seizures induced by pilocarpine following lithium pretreatment or by kainic acid on the expression of brain derived neurotrophic factor (BDNF) mRNA in developing rat brain by in situ hybridization. In adult brain, lithium/pilocarpine treatment resulted in dramatic elevations of hybridization to BDNF cRNA in neocortical and limbic brain structures. In developing brain, lithium/pilocarpine induced elevations of BDNF mRNA in the hippocampus, piriform and entorhinal cortex as early as postnatal day 7 (P7). By P12, the pattern of enhanced expression was similar to that of the adult. Maximal elevations of hybridization were present 2 to 4 h following pilocarpine injection. Electrophysiological recording demonstrated that lithium/pilocarpine treatment resulted in electrographic seizures. Pretreatment with diazepam blocked the seizures as well as the elevation of BDNF mRNA. Kainic acid induced elevations of BDNF mRNA in the CA3 subfield of the hippocampal pyramidal cell layer, but not in other brain areas in pups as young as P7. These data indicate that seizures during the neonatal and early juvenile period of brain development induce elevated BDNF mRNA expression, and that different methods of seizure induction yield different patterns of elevations in hybridization. Furthermore, BDNF may be capable of playing a role in the development of seizure susceptibility in the immature brain.