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Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
For the purpose of investigating the long-term effects of
seizures
in developmental rats on spatial learning ability and hippocampal mossy fiber sprouting related gene expressions in adult rat brain, a
seizure
was induced by penicillin quaque die alterna in Sprague-Dawley rats from postnatal day 29 (P29). Rats were assigned into the recurrent
seizure
group (RS,
seizures
were induced in 11 consecutive days) and the control group. During
P51
-P56, P81-P84 and P92-P95, the rats were tested for spatial learning ability with the Morris water maze task. On P95, the authors examined mossy fiber sprouting and gene expression of zinc transporters 1 and 3 (ZnT-1, ZnT-3), calcium/calmodulin-dependent protein kinase IIalpha (CaMK-IIalpha), NMDA receptor 2C (NR2C) and glutamate receptor 2 (GluR2) in hippocampus by Timm staining and real-time RT-PCR analysis. The escape latencies from the water maze of the rats in the RS group were significantly longer than those of the control rats at d5 of the first test, at d1 of the second test, and at d2 of the third test. In the spatial probe test, the ratio between the swim time in the third quadrant and the total swim time in control group was significantly higher than RS group (p<0.05) in the entire three probe tests. The Timm scores in CA3 and dentate gyrus in the RS animals were significantly higher than that in the control. Compared with the control rats, the expressions of ZnT-1, CaMK-IIalpha and GluR2 transcripts in the hippocampus of the RS group was significantly decreased while unchanged in transcriptional levels of ZnT-3 and NR2C. There were positive linear correlations among ZnT-3, CaMKIIalpha, and NR2C in control group and among CaMKIIalpha, ZnT-1 and GluR2 in RS group. The results suggest that recurrent
seizures
induced in developmental rats could cause long-term disturbance on the hippocampal mossy fiber sprouting related gene expressions, which might play an important role in long-term cognitive deficit and hippocampal aberrant mossy fiber sprouting.
...
PMID:Effects of penicillin-induced developmental epilepticus on hippocampal regenerative sprouting, related gene expression and cognitive deficits in rats. 1944 51
E-64d (a calpain and autophagy inhibitor) has previously been shown safe for the treatment of Alzheimer's disease in humans. In the present study, the potential protective mechanism of E-64d on hippocampal aberrant mossy fiber sprouting was examined in a developmental rat model of penicillin-induced recurrent epilepticus. A
seizure
was induced by penicillin every other day in Sprague-Dawley rats from postnatal day 21 (P21). The rats were randomly assigned into the control group (CONT1), the control plus E-64d (CONT2), the
seizure
group (EXP1) and the
seizure
plus E-64d (EXP2). On
P51
, mossy fiber sprouting and related gene expression in hippocampus were assessed by Timm staining and real-time RT-PCR methods, respectively. To validate the RT-PCR results, western blot analysis was performed on selected genes. E-64d obviously suppressed the aberrant mossy fiber sprouting in the supragranular region of dentate gyrus and CA3 subfield of hippocampus. Among the total twelve genes, six genes were strongly up- (MT-3, ACAT1, clusterin and ApoE) or down- (ZnT-1 and PRG-3) regulated by developmental
seizures
(EXP1) compared with that in the CONT1. Up-regulation of ApoE and Clusterin was blocked by pretreatment with E-64d both in mRNA and protein levels. Further, E-64d-pretreated
seizure
rats (EXP2) showed a significant downregulation of mRNA expression of PRG-1, PRG-3 and PRG-5, cathepsin B and ApoE, as well as up-regulated nSMase and ANX7 in hippocampus when compared with EXP1 rats. The results of the present study suggest that E-64d, an elective inhibitor of calpain and autophagy, is potentially useful in the treatment of developmental
seizure
-induced brain damage both by regulating abnormal zinc signal transduction and through the modulation of altered lipid metabolism via ApoE/clusterin pathway in hippocampus.
...
PMID:Expression profiles of hippocampal regenerative sprouting-related genes and their regulation by E-64d in a developmental rat model of penicillin-induced recurrent epilepticus. 2326 20
It has been recently shown that enriched environment led to a significant benefit in learning and retention of visual-spatial memory, being able to reverse the cognitive impairment generated by undernourishment and recurrent
seizures
. We investigated the hippocampal morphological effects of recurrent
seizures
and undernourishment early in life in Wistar rats and the possible benefits produced by the enriched environment in these conditions. The morphological parameters stereologically evaluated were hippocampal volume, thickness of pyramidal stratum of the CA1 subfield and neuronal and glial densities in the same subfield. Male Wistar rats were divided into eight groups including nourished, nourished+enriched environment, nourished+recurrent
seizures
, nourished+recurrent seizures+enriched environment, undernourished, undernourished+enriched environment, undernourished+recurrent
seizures
and undernourished+recurrent seizures+enriched environment. Undernourishment model consisted in nutritional deprivation regimen from post-natal day 2 (P2) to P15. From P8 to P10, recurrent
seizures
group were induced by flurothyl three times per day. Enriched environment groups were exposed between P21 and
P51
. Our main findings were: (1) animals submitted to the enriched environment showed an increased hippocampal volume; (2) enriched environment promotes increases in the thickness of the pyramidal layer in hippocampal CA1 subfield in animals nourished and undernourished with recurrent
seizures
; (3) undernourishment during early development decreased neuronal density in CA1 and CA3 subfields. Our findings show that these three conditions induces important changes in hippocampal morphology, the most deleterious changes are induced by undernourishment and recurrent
seizures
, while more beneficial morphological changes are produced by enriched environment.
...
PMID:Effects of undernourishment, recurrent seizures and enriched environment during early life in hippocampal morphology. 2436 60
The ketogenic diet (KD) has been shown to be effective as an antiepileptic therapy in adults, but it has not been extensively tested for its efficacy in neonatal
seizure
-induced brain damage. We have previously shown altered expression of zinc/lipid metabolism-related genes in hippocampus following penicillin-induced developmental model of epilepsy. In this study, we further investigated the effect of KD on the neurobehavioral and cognitive deficits, as well as if KD has any influence in the activity of zinc/lipid transporters such as zinc transporter 3 (ZnT-3), MT-3, ApoE, ApoJ (clusterin), and ACAT-1 activities in neonatal rats submitted to flurothyl-induced recurrent
seizures
. Postnatal day 9 (P9), 48 Sprague-Dawley rats were randomly assigned to two groups: flurothyl-induced recurrent
seizure
group (EXP) and control group (CONT). On P28, they were further randomly divided into the
seizure
group without ketogenic diet (EXP1),
seizure
plus ketogenic diet (EXP2), the control group without ketogenic diet (CONT1), and the control plus ketogenic diet (CONT2). Neurological behavioral parameters of brain damage (plane righting reflex, cliff avoidance reflex, and open field test) were observed from P35 to P49. Morris water maze test was performed during
P51
-P57. Then hippocampal mossy fiber sprouting and the protein levels of ZnT3, MT3, ApoE, CLU, and ACAT-1 were detected by Timm staining and Western blot analysis, respectively. Flurothyl-induced neurobehavioral toxicology and aberrant mossy fiber sprouting were blocked by KD. In parallel with these behavioral changes, rats treated with KD (EXP2) showed a significant down-regulated expression of ZnT-3, MT-3, ApoE, clusterin, and ACAT-1 in hippocampus when compared with the non-KD-treated EXP1 group. Our findings provide support for zinc/lipid transporter signals being potential targets for the treatment of neonatal
seizure
-induced brain damage by KD.
...
PMID:Neurobehavioral Deficits in a Rat Model of Recurrent Neonatal Seizures Are Prevented by a Ketogenic Diet and Correlate with Hippocampal Zinc/Lipid Transporter Signals. 2577 34
Autophagy has been shown to be involved in the pathophysiology of developmental
seizure
-induced brain damage. The present study aimed to examine whether E-64d, an autophagy inhibitor, was able to facilitate developmental
seizure
-induced hippocampal mossy fiber sprouting, in particular sprouting-associated zinc transporter signals. Recurrent seizures were induced by penicillin every other day in Sprague-Dawley rats from postnatal day 21 (P21). Rats were randomly assigned into the control group (CONT), recurrent
seizure
group (RS) and the
seizure
plus E-64d group (E64D). The expression levels of beclin-1 and B-cell lymphoma 2 were analyzed at 1.5, 3, 6 and 24 h after the last
seizures
using western blot analysis. At
P51
, mossy fiber sprouting and the mRNA expression levels of zinc transporter 2 (ZnT-2), ZnT-4, ZnT-5, ZnT-6, ZnT-7, divalent cation transporter 1, Zrt-Irt-like protein 6 (ZIP-6), ZIP-7, cathepsin D and cathepsin L in the rat hippocampus were assessed using Timm staining and reverse transcription-quantitative polymerase chain reaction analysis, respectively. Reduced hippocampal mossy fiber sprouting were detected in the E-64d-treated rats compared with the non-treated control. In parallel with these observations, there was a marked reduction in the mRNA expression levels of ZnT-4 at
P51
in the E-64d-treated rat hippocampus compared with the non-treated
seizure
group. Linear correlation analysis showed significant inter-relationship among ZIP-7, ZnT-4, ZnT-5, ZnT-7, cathepsin D and cathepsin L. These results indicate that the ZnT-4/ZIP-7/cathepsin signaling pathway serves a crucial function in the neuroprotective effects of E-64d. Thus, E-64d may offer a novel strategy for the development of therapeutic interventions for developmental
seizure
-induced brain damage.
...
PMID:Long-term expression of zinc transporters in hippocampus following penicillin-induced developmental seizures and its regulation by E-64d. 2734 40
