| 1. |
- Kokaia, Merab, et al.
(författare)
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Biphasic differential changes of GABAA receptor subunit mRNA levels in dentate gyrus granule cells following recurrent kindling-induced seizures
- 1994
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Ingår i: Brain Research. Molecular Brain Research. - 0169-328X. ; 23:4, s. 323-332
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Tidskriftsartikel (refereegranskat)abstract
- GABAA receptor alpha 1, beta 3 and gamma 2 subunit mRNA levels have been measured in hippocampus using in situ hybridization, following 1, 10 and 40 seizures produced by rapid kindling stimulations. Major alterations of gene expression were largely confined to the dentate gyrus. One stimulus-induced seizure reduced gamma 2 mRNA levels in the dentate gyrus by 30%. In contrast, mRNA expression increased for alpha 1 in CA1 and CA3 and for beta 3 in CA1 to around 30% above control values. Ten stimulations reduced beta 3 (by 19%) and gamma 2 (by 37%) mRNA expression in the dentate gyrus. No changes were observed in other hippocampal subregions. Forty kindling-induced seizures led to biphasic alterations of subunit mRNA levels in dentate gyrus with only minor changes in CA1-CA3. Up to 4 h after the last seizure mRNA expression for alpha 1 was slightly decreased in dentate gyrus, whereas marked reductions were observed for beta 3 and gamma 2 (by 41% and 48%, respectively). Between 12 and 48 h there were major increases of alpha 1 (by 59%) and gamma 2 (by 35%) mRNA levels but no significant changes of beta 3 mRNA expression. Subunit mRNA levels had returned to control values after 5 days, which argues against a direct involvement of GABAA receptor in kindling-evoked hyperexcitability. The rapid and transient, biphasic changes of GABAA receptor subunits following recurrent seizures could play an important role in stabilizing granule cell excitability, thereby reducing seizure susceptibility. The differential regulation of subunit mRNA levels following seizures suggests a novel mechanism for changing the physiological properties of dentate granule cells through possible GABAA receptor complexes with different subunit composition.
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| 2. |
- Kokaia, Merab, et al.
(författare)
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Seizure development and noradrenaline release in kindling epilepsy after noradrenergic reinnervation of the subcortically deafferented hippocampus by superior cervical ganglion or fetal locus coeruleus grafts
- 1994
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Ingår i: Experimental Neurology. - : Elsevier BV. - 0014-4886. ; 130:2, s. 351-361
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Tidskriftsartikel (refereegranskat)abstract
- Solid pieces of fetal locus coeruleus (LC) or superior cervical ganglion (SCG) were placed into a fimbria-fornix lesion cavity in 6-hydroxydopamine-treated, noradrenaline (NA)-denervated rats. Six to 8 months later, all animals were subjected to electrical kindling stimulations in the hippocampus until they had reached the fully kindled state. Nongrafted lesioned animals showed markedly increased kindling rate which was partly attenuated by LC but not SCG grafts. In both LC- and SCG-grafted animals, dopamine beta-hydroxylase immunocytochemistry demonstrated a high density of graft-derived noradrenergic fibers in the dorsal hippocampus, whereas reinnervation of the ventral hippocampus was much more sparse. Subregional distribution of these fibers within the hippocampus was different in the two grafted groups. Both grafts partly restored basal extracellular NA levels in the hippocampus and reacted to generalized seizures by a significant (two- to threefold) increase of NA release, as measured by intracerebral microdialysis. Our data indicate (i) that seizure activity can regulate transmitter release from noradrenergic neurons in both LC and SCG grafts, (ii) that only fetal LC grafts retard seizure development in kindling, and (iii) that the inability of SCG implants to influence kindling epileptogenesis could be due to a lack of synaptic contacts between the graft-derived ganglionic fibers and host hippocampal neurons.
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| 3. |
- Kokaia, Merab, et al.
(författare)
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Seizure suppression in kindling epilepsy by intracerebral implants of GABA- but not by noradrenaline-releasing polymer matrices
- 1994
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Ingår i: Experimental Brain Research. - 0014-4819. ; 100:3, s. 385-394
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Tidskriftsartikel (refereegranskat)abstract
- Gamma-aminobutyric acid (GABA)-releasing polymer matrices were implanted bilaterally, immediately dorsal to the substantia nigra, in rats previously kindled in the amygdala. Two days after implantation, rats with GABA-releasing matrices exhibited only focal limbic seizures in response to electrical stimulation, whereas animals with control matrices devoid of GABA had generalized convulsions. GABA release from the polymer matrices was high during the first days after implantation, as demonstrated both in vitro and, using microdialysis, in vivo. The anticonvulsant effect was no longer observed at 7 and 14 days at which time GABA release was found to be low. In a parallel experiment, polymer matrices containing noradrenaline (NA) were implanted bilaterally into the hippocampus of rats with extensive forebrain NA depletion induced by an intraventricular 6-hydroxydopamine injection. No effect on the development of hippocampal kindling was observed, despite extracellular NA levels exceeding those of rats with intrahippocampal locus coeruleus grafts that have previously been shown to retard kindling rate. The results indicate that GABA-releasing implants located in the substantia nigra region can suppress seizure generalization in epilepsy, even in the absence of synapse formation and integration with the host brain. In contrast, the failure of NA-releasing polymer matrices to retard the development of seizures in NA-depleted rats suggests that such an effect can only be exerted by grafts acting through a well-regulated, synaptic release of NA.
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| 4. |
- Kokaia, Zaal, et al.
(författare)
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Brain insults in rats induce increased expression of the BDNF gene through differential use of multiple promoters
- 1994
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Ingår i: European Journal of Neuroscience. - : Wiley. - 1460-9568 .- 0953-816X. ; 6:4, s. 587-596
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Tidskriftsartikel (refereegranskat)abstract
- 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.
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| 5. |
- Lindvall, Olle, et al.
(författare)
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Grafts in models of epilepsy
- 1994
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Ingår i: Functional Neural Transplantation. - 078170068X ; , s. 387-387
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Bokkapitel (övrigt vetenskapligt/konstnärligt)
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| 6. |
- Lindvall, Olle, et al.
(författare)
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Neurotrophins and brain insults
- 1994
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Ingår i: Trends in Neurosciences. - : Elsevier BV. - 1878-108X .- 0166-2236. ; 17:11, s. 490-496
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Forskningsöversikt (refereegranskat)abstract
- Epileptic, hypoglycaemic, ischaemic and traumatic insults to the brain induce marked changes of gene expression for the neurotrophins, nerve growth factor, brain-derived neurotrophic factor and neurotrophin-3, and their high-affinity receptors, TrkB and TrkC, in cortical and hippocampal neurones. Release of glutamate and influx of Ca2+ are the most important triggering factors. The major hypotheses for the functional effects of the insult-induced neurotrophin changes are protection against neuronal damage and stimulation of sprouting and synaptic reorganization. More insight into the regulation and role of the neurotrophins after brain insults should increase our understanding of pathophysiological mechanisms in, for example, epileptogenesis and cell death, and could lead to new therapeutic strategies.
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