Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kainic acid (KA)-induced seizures in adult rats have been reported to cause sprouting of mossy fibres in the inner molecular layer (IML) of the dentate gyrus. In the present study, using electron microscopic immunostaining for GAP-43 we found that 3 months after KA treatment, several GAP-43 positive terminals in the IML showed structural characteristics of mossy fibre boutons. No GAP-43-positive mossy fibre terminals were found in the normal projection areas of granule cells, thus indicating that newly synthesized GAP-43 is transported predominantly in the axonal branches actively undergoing remodelling. These results provide evidence of the involvement of GAP-43 in the structural remodelling of mossy fibres, and suggest a role of this protein in the functional activity of the sprouted mossy fibres as a consequence of KA-induced seizures.
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PMID:Ultrastructural immunolocalization of GAP-43 in the sprouted mossy fibres of kainic acid lesioned rats. 769 23

Protein kinase C (PKC) activity, Western blot analysis of PKC alpha, beta, gamma, epsilon and zeta with isozyme-specific antibodies, endogenous substrate protein phosphorylation, and Western blot analysis of neuromodulin, were studied in mouse brain after repeated electroconvulsive shock. The PKC isozymes and endogenous substrates in the crude cytosolic and membrane fractions were partially purified on DE-52 columns eluted with buffer containing 100 or 200 mM KCl. The kinase activity assayed by phosphorylation of exogenous histone was increased in the 200 mM KCl eluates of both the cytosol and membrane fractions from electroshocked mice. Further analysis by immunoblotting demonstrated that this increased activity was due to an increase in the PKC gamma isozyme. The level of the novel type isozymes, epsilon and zeta, was not altered in electroshocked mice. An in vitro phosphorylation study showed that the endogenous substrate, 17 kDa neurogranin, was mostly eluted by 100 mM KCl. In contrast, the 43 kDa neuromodulin only appeared in the 200 mM KCl eluate, according to autoradiography, SDS-PAGE and Western blot analysis; its level was found to be increased in the membrane fraction of electroshocked mice, as demonstrated by in vitro phosphorylation studies. Therefore, an increase in both PKC gamma and neuromodulin contributed to the increased phosphorylation of neuromodulin during electroshock seizure.
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PMID:Alterations of protein kinase C isozyme and substrate proteins in mouse brain after electroconvulsive seizures. 792 28

The axonal growth-associated protein GAP-43 is believed to play some role in the synaptic remodelling that takes place in the hippocampus of adult rats after certain experimental lesions. GAP-43 mRNA is highly expressed in adult CA3 pyramidal cells but almost absent in the dentate granule cells. We analysed whether the sprouting of granule cell axons, the mossy fibres of the hippocampus, caused by kainic acid-induced seizures in adult rats was associated with any induction of GAP-43 mRNA in granule cells and with any changes in the immunostaining pattern of GAP-43 in the hippocampus. Increased GAP-43 mRNA expression was found to be induced in granule cells 18, 24 and 30 h after a systemic injection of kainic acid which induced generalized seizures in adult rats, and returned to control levels by 48 h post-treatment. No effect was observed in other regions of the hippocampus. However, when kainic acid was injected into 15-day-old rats, which responded with generalized seizures but no sprouting of mossy fibres, there was no induction of GAP-43 mRNA in the granule cells, suggesting a close relation between GAP-43 expression and sprouting of these cells. Seven days after kainic acid injections, GAP-43 immunostaining was decreased in the inner molecular layer of the dentate gyrus except for a thin supragranular band, whereas 30 days after treatment all animals showed increased GAP-43 immunoreactivity in the whole inner molecular layer.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of GAP-43 in the granule cells of rat hippocampus after seizure-induced sprouting of mossy fibres: in situ hybridization and immunocytochemical studies. 802 6

In the adult rat hippocampus mRNA of F1/GAP-43, an axonal growth-associated protein, is highly expressed in pyramidal cells, but is absent in granule cells. To determine whether granule cells can be induced to express mRNA of F1/GAP-43, transcript levels were studied after limbic seizures, which can induce sprouting of granule cell mossy fibers. Seizure-inducing electrolytic lesions were made in the dentate gyrus hilus with stainless-steel electrodes and mRNA levels were measured in contralateral hippocampus by quantitative in situ hybridization. Induction of F1/GAP-43 mRNA expression was observed in granule cells at 24 h, but not at 6 or 12 h, after the hilar lesion. When equivalent sized hilar lesions were made with platinum electrodes, which do not induce seizures, no hybridization was apparent over the granule cells. Hybridization over granule cells had declined by 48 h post-lesion, but even at 10 days it was still slightly higher than in control rats. F1/GAP-43 mRNA expression was also increased 2-fold in CA1 pyramidal cells with peak expression at 48 h post-lesion. These are the first data to our knowledge that demonstrate that F1/GAP-43 gene expression can be altered in neurons located within the adult brain. Induction of F1/GAP-43 mRNA expression in the granule cells may be important for the sprouting of mossy fibers and could be triggered by the elevated levels of brain-derived neurotrophic factor in CA3 cells which precede the increased F1/GAP-43 gene expression in granule cells.
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PMID:Induction of F1/GAP-43 gene expression in hippocampal granule cells after seizures [corrected]. 851 May 1

Development of kindling and mossy fiber sprouting, and changes of gene expression were studied after 40 seizures produced during about 3 h by electrical stimulation every 5 min in the ventral hippocampus. As assessed by 5 test stimulations, enhanced responsiveness was present already after 6-24 h but from 1 week post-seizure increased gradually up to 4 weeks without additional stimuli. Sprouting of mossy fibers in the dentate gyrus was demonstrated only at 4 weeks with Timm's staining. In situ hybridization showed a transient increase (maximum at 2 h) of brain-derived neurotrophic factor (BDNF), nerve growth factor (NGF), TrkB and TrkC mRNA levels and reduction (maximum at 12-24 h) of neurotrophin-3 (NT-3) mRNA expression in dentate granule cells after the seizures. In addition, BDNF mRNA levels were elevated in CA1 and CA3 regions, amygdala and piriform cortex. Marked increases of mRNA for growth-associated protein (GAP-43), with maximum expression at 12-24 h, were observed in dentate granule cells and in amygdala-piriform cortex. Dynorphin mRNA levels showed biphasic changes in dentate granule cells with an increase at 2 h followed by a decrease at 24 h. No long-term alterations of gene expression were observed. These findings indicate that increased responsiveness develops rapidly after recurring seizures but that the kindled state is reached gradually in about 4 weeks. Mossy fiber sprouting occurs in parallel to epileptogenesis and may play a causative role. Short-term changes of neurotrophin and Trk, GAP-43 and dynorphin mRNA levels and the assumed alterations of the corresponding proteins could trigger structural rearrangements underlying kindling but might also contribute to the initial increase of seizure susceptibility.
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PMID:Delayed kindling development after rapidly recurring seizures: relation to mossy fiber sprouting and neurotrophin, GAP-43 and dynorphin gene expression. 870 3

Granule cells in the adult rat hippocampus do not constitutively express the growth-related axonal protein F1 (a.k.a. B-50, GAP-43, neuromodulin, pp46), yet kainic acid (KA) can induce extensive growth of granule cell axons, the mossy fibers, into the supragranular layer. Does this KA-induced growth occur in the absence of protein F1/GAP-43? Using quantitative in situ hybridization, we found that 16-24 h after KA (10 mg/kg, s.c.) F1/GAP-43 mRNA was in fact induced in granule cells and remained elevated above control levels for at least 20 days. The induction of F1/GAP-43 mRNA in granule cells was blocked either by MK-801 or pentobarbital pretreatment. If pentobarbitol was given 55 min, but not 90 min, after KA, F1/GAP-43 mRNA was also blocked. Since induction of F1/GAP-43 occurred when pentobarbitol was given 90 min after KA, a 35 min window of activation is required, beyond the initial 55 min, for F1/GAP-43 mRNA induction. As both MK-801 and pentobarbital blocked behavioral seizures their anti-convulsant action may be important for blocking F1/GAP-43 mRNA induction. Mossy fiber sprouting observed 30 days after KA was also blocked when either MK-801 or pentobarbital was given prior to KA. These results are consistent with the proposal that protein F1/GAP-43 promotes axonal growth in the adult brain in an input-dependent manner, and may also be of clinical relevance to the molecular mechanisms underlying structural remodeling in epilepsy.
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PMID:NMDA receptor blockade prevents kainate induction of protein F1/GAP-43 mRNA in hippocampal granule cells and subsequent mossy fiber sprouting in the rat. 877 42

Protein F1/GAP-43 is differentially expressed in brain with high levels present in regions associated with memory functions. However, in hippocampus the granule cells lack F1/GAP-43 expression. To determine if this lack of expression is due to inhibitory signals from the target cells, we selectively destroyed CA3 pyramidal cells unilaterally using microinjections of excitotoxins. Kainate lesions induced F1/GAP-43 mRNA expression bilaterally in granule cells at 24 h post-injection. Since the induction contralateral to the lesion was not due to loss of target cells, that induction may be ascribed to consequences of seizure activity. However, F1/GAP-43 mRNA hybridization decreased by 3 d post-lesion and was at background levels by 6 d, indicating that the lack of F1/GAP-43 expression in granule cells is restored despite a lack of target neurons. Unilateral lesions of CA3 cells using ibotenate, which are not as complete as kainate but do not cause seizures, did not induce F1/GAP-43 mRNA in granule cells on either the contralateral or, in 4 of 5 cases, the ipsilateral side. Taken together, these data suggest that the CA3 target is not essential for the absence of F1/GAP-43 expression in granule cells. To compare the extent of damage caused by the lesions, we investigated the location of astrocytes undergoing reactive gliosis, employing as a reporter glial fibrillary acidic protein (GFAP) gene expression. After both kainate and ibotenate injections GFAP hybridization increased in the lesioned area as well as in the contralateral hippocampus. These results indicate that injections of kainate, and possibly ibotenate to a lesser extent, may affect behavior not only by damaging cells at the injection site, but also by altering gene expression in cells at distant sites.
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PMID:Is the lack of protein F1/GAP-43 mRNA in granule cells target-dependent? 882 59

We began these experiments as an attempt to replicate in the mouse the induction by kainate (KA) of F1/GAP-43 mRNA we observed in adult rat hippocampal granule cells [Mol. Brain Res., 33 (1995) 22-28]. However, even though KA induced behavioral seizures in the mouse similar to those in the rat, neither induction of F1/GAP-43 mRNA nor subsequent mossy fiber sprouting observed in the rat was detected in three different mouse strains. It was also surprising that the distribution of constitutive levels of F1/GAP-43 mRNA in mouse and rat hippocampus was qualitatively different. Indeed, F1/GAP-43 expression in CA3 pyramidal cells was significantly greater in rat than mouse, while F1/GAP-43 expression in CA1 cells of rat and mouse was equivalent using densitometric analysis. Thus, F1/GAP-43 expression in rat is quantitatively higher in CA3 and CA1 pyramidal cells. In mouse, expression was equivalent in these two subfields. In a transgenic mouse bearing a rat F1/GAP-43 promoter-reporter (lacZ) construct (line 252), in-vivo promoter activity of F1/GAP-43 was studied in hippocampal cells. Transgene expression in hippocampal pyramidal subfields, high in CA3, low in CA1 pyramidal cells, paralleled the distribution of rat F1/GAP-43 mRNA levels, not mouse. Differences in the constitutive F1/GAP-43 expression pattern in hippocampus between rat and mouse may therefore be determined by different recognition elements present on the F1/GAP-43 promoter. KA injected into the line 252 transgenic mouse did not activate the rat F1/GAP-43 promoter in mouse hippocampal granule cells. The absence of both F1/GAP-43 mRNA expression induction and promoter activation in mouse granule cells after KA is likely related to genera differences in transcriptional regulatory mechanisms, though post-transcriptional mechanisms cannot be excluded. Since the different hippocampal chemistry of F1/GAP-43 in rat and mouse likely extends to other molecular species, behaviors in rat and mouse that depend on hippocampal function might be different as well. We therefore evaluated spatial memory ability in a delayed matching-to-sample task. In contrast to rat, we were surprised to find no evidence of the ability to learn this task in three different mouse strains. Since interest in mouse genetics in relation to behavior and memory functions of hippocampus is growing, generalizations concerning hippocampal function from studies carried out on the mouse need to be made with caution considering the specific behavioral, pharmacological, and general molecular differences observed here. One can also be opportunistic and exploit the natural variations between these two genera to gain insight into the molecular mechanisms underlying information storage.
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PMID:Distinctions between hippocampus of mouse and rat: protein F1/GAP-43 gene expression, promoter activity, and spatial memory. 887 1

We have previously shown that kainic acid-induced seizures in adult rats caused an up-regulation of GAP-43 mRNA in the granule cells of the hippocampus, suggesting an involvement of this protein in the kainic acid-induced sprouting of mossy fibres. To determine whether this effect was dependent on the synthesis of proteins activated under these experimental conditions we examined the effect of cycloheximide, a protein synthesis inhibitor, on kainic acid-induced GAP-43 mRNA. Cycloheximide, injected s.c. 2 h but not 8 h after kainic acid, markedly reduced the increased expression of GAP-43 mRNA in granule cells. These results suggest that a rapid mechanism involving new protein synthesis is activated by kainic acid to induce GAP-43 in the granule cells and possibly trigger the structural remodeling of mossy fibres.
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PMID:Cycloheximide inhibits kainic acid-induced GAP-43 mRNA in dentate granule cells in rats. 898 19

Kainic acid-induced seizures, in adult rats produce neurodegeneration in the hippocampus followed by sprouting of the mossy fibres in the inner molecular layer of the dentate gyrus and changes in GAP-43 expression in the granule cells. In the present study we observed that 4 days after kainic acid injection a dense plexus of silver-impregnated degenerating terminals detected by Gallyas's method and a decrease of GAP-43 immunostaining was observed in the inner molecular layer of the dentate gyrus indicating deafferentiation of this region. This was associated with the formation of an intense GAP-43 immunostained band in the supragranular layer. MK-801, a non-competitive inhibitor of the NMDA receptor, which partially inhibited the behavioural seizures induced by KA, also protected from the inner molecular layer deafferentation and markedly reduced the expression of GAP-43 mRNA in the granule cells and the intense GAP-43 immunostained band in the supragranular layer, suggesting a relationship among these events. Two months after kainic acid injection the intense supragranular GAP-43 positive band was no longer evident but the whole inner molecular layer appeared more labelled in association with the formation of the collateral sprouting of the mossy fibres in the inner molecular layer as detected by Timm's staining. These effects were also markedly reduced by the pretreatment with MK-801. Taken together, these experiments indicate for the first time a direct relationship between the increase of GAP-43 immunostaining in the inner molecular layer of the dentate gyrus and the collateral sprouting of mossy fibres in this district in response to kainic acid induced seizures. This further supports the hypothesis that the early induction of GAP-43 in granule cells may be one of the molecular mechanisms required for the synaptic reorganization of the mossy fibres.
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PMID:Relationship between GAP-43 expression in the dentate gyrus and synaptic reorganization of hippocampal mossy fibres in rats treated with kainic acid. 904 73


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