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)

Coupling between local cerebral blood flow and local cerebral metabolic rate for glucose is involved in the pathogenesis of epilepsy-related neuronal damage in the adult brain; however, its role in the immature brain is unknown. Lithium-pilocarpine-induced status epilepticus is associated with extended damage in adult rats, mostly in the forebrain limbic areas and thalamus, whereas damage was moderate in 21-day-old rats (P21) or absent in P10 rats. The quantitative autoradiographic [14C]iodoantipyrine technique was applied to measure the consequences of lithium-pilocarpine status epilepticus on local cerebral blood flow. In adult and P21 rats, local cerebral blood flow rates increased by 50% to 400%; the highest increases were recorded in regions showing damage in adults. At P10, local cerebral blood flow rates decreased by 40% to 60% in most areas, except in some forebrain regions showing no change during status epilepticus. In areas injured when status epilepticus was induced in adults, a strong hypermetabolism (Fernandes et al., 1999) not matched by comparable local cerebral blood flow increases was present in rats of all ages, whereas in damage-resistant areas, local cerebral metabolic rate for glucose and local cerebral blood flow remained coupled in the three age groups. Thus, the level of coupling between blood flow supply and metabolism is not involved in seizure-related brain damage in the developing brain, which appears to be resistant to the consequences of such a mismatch.
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PMID:Local cerebral blood flow during lithium-pilocarpine seizures in the developing and adult rat: role of coupling between blood flow and metabolism in the genesis of neuronal damage. 1182 17

Nitric oxide (NO) is a short-lived radical, which modulates synaptic plasticity, neuronal oscillations and cerebral blood flow. NOS-containing neurones can be detected anatomically by nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) histochemistry or by NOS immunohistochemistry. Neuropeptide Y(NPY) is the most abundant peptide in the brain. NPY is connected with several vital functions, such as a feeding behaviour, sexual maturation, regulation of circadian rhythms, body temperature, blood pressure and neuroendocrine secretions. Neuropeptide Y also modulates anxiety-related disorders, limbic epileptic seizures as well as learning and memory processes. The study was performed on 45 Wistar rats of various ages (PO, P4, P7, P10, P14, P21, P30, P60, and P120; P--postnatal day). The free-floating sections were stained with standard immunohistochemistry methods. Thereafter the histological sections were studied using the confocal laser microscope equipped. For 3D reconstruction the image analysis program LaserSharp 2000v. 2.0 (Bio-Rad, UK) was used. We found that in the newborn rat both NOS- and NPY-immunoreactivity was weak. It had been increasing gradually until the 7th day of postnatal life, after that until P14 it was maintained on the similar level, and then the number of immunolabelled cells deceased. The developmental changes concerned cell morphology as well--until the 10th day of life the immunoreactive cells were immature, with round or oval bodies and had only a few fibres. From P14 the cells' morphology became similar to that in adult.
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PMID:Distribution of nitric oxide synthase and neuropeptide Y neurones during the development of the hippocampal formation in the rat. 1272 88

Lithium-pilocarpine-induced status epilepticus (SE) leads to the genesis of massive neuronal loss in adult rats and to a lesser extent in P21 rats. Neuronal damage occurs mainly via a process of necrosis in limbic forebrain, cerebral cortex, thalamus, and substantia nigra. It is not known, however, whether damage is the result of local excitotoxic hyperactivity or if leakage at the blood-brain barrier (BBB) could participate in the damaging process. Therefore, we investigated the permeability of the BBB in adult and P21 rats using [alpha-(14)C]aminoisobutyric acid, which does not cross an intact BBB, at 90 min after the onset of SE. At both ages, BBB opening occurred both in structures that will undergo damage (thalamus, septum, amygdala) and structures that will not be injured (globus pallidus, hypothalamus). In addition, neuronal damage occurs in the absence of increased BBB permeability in hippocampus, entorhinal cortex, and substantia nigra. Moreover, the increase in the intensity and distribution of BBB permeability changes is age-related, suggesting a differential activation of seizure circuits in adult and P21 rats. In summary, there is no clear correlation between the anatomical distribution of BBB opening and the occurrence of neuronal damage which, in this model, appears to rather depend on excitotoxic mechanisms due to major neuronal hyperexcitability.
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PMID:In the lithium-pilocarpine model of epilepsy, brain lesions are not linked to changes in blood-brain barrier permeability: an autoradiographic study in adult and developing rats. 1289 47

Malnutrition and/or seizure in the developing brain cause hippocampal damages. However, underlying mechanisms remain unclear. The malnutrition group (MN) subjected with malnutrition alone was culled to 20-22 rats per dam on postnatal day 1 (P1). The rats subjected to lithium-pilocarpine (Li/PC)-induced status epilepticus at P21 were grouped as the SE group. The rats subjected to malnutrition and subsequent status epilepticus were grouped as the MS group. Visual-spatial memory test using the Morris water maze task was performed at P80. Following behavioral tests, the hippocampus was evaluated for histological lesions and phosphorylated cAMP-responsive, element-binding protein at serine-133 (pCREB(Ser-133)), an important transcription factor underlying learning and memory in the mammalian brain. Here, the MN group exhibited decreased body weight at P21. There was no significant difference in the seizure duration and mortality between the SE and MS groups. In adulthood (P80), both the SE and MS groups showed the spatial learning deficit, hippocampal cell loss and decreased pCREB(Ser133) level within hippocampal CA1 region. Although the MN group demonstrated a decreased level of pCREB(Ser133), no distinguishable changes in the cognitive deficit and hippocampal neuronal loss were detected. Collectively, the present results suggest that early-life malnutrition led to a reduced phosphorylation of CREB(Ser133) in hippocampal CA1 in the absence of the long-term spatial learning deficit. This decreased phosphorylation of CREB(Ser133) could suggest that cascades of signal transduction responsible for the phosphorylation of CREB(Ser133) might be disturbed by early-life malnutrition. In addition, malnutrition caused no discernible synergistic effects on Li/PC-induced status epilepticus.
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PMID:Long-term effects of early-life malnutrition and status epilepticus: assessment by spatial navigation and CREB(Serine-133) phosphorylation. 1460 61

The lithium-pilocarpine (Li-Pilo) model of epilepsy reproduces some pathophysiological, temporal, and developmental features of human temporal lobe epilepsy. In this model, rates of cerebral glucose utilization measured by the [(14)C]2-deoxyglucose technique increased during the initial status epilepticus (SE) and decreased during the latent or chronic periods. To correlate these metabolic changes with the activities of the enzymes of the glycolytic and tricarboxylic acid cycle pathways, we measured by histoenzymology the regional activity of two key enzymes of glucose metabolism, lactate dehydrogenase (LDH) for the anaerobic pathway and cytochrome oxidase (CO) for the aerobic pathway coupled to oxidative phosphorylation, at various times after SE induced by Li-Pilo in 10- (P10), 21-d-old (P21) and adult rats for CO and in adult rats only for LDH. CO activity was slightly affected in P10 and P21 rats only at 4 and 24 h and normalized by 14 d after SE. In adult rats, CO activity decreased at 4 and 24 h in damaged areas, like entorhinal cortex, hippocampal CA3 area, amygdala, and thalamus. At 14 d after SE, CO activity was decreased only in entorhinal cortex and increased in brainstem regions involved in the remote control of seizures. In adult rats, LDH activity decreased at 24 h and 14 d after SE in sensorimotor and entorhinal cortex. These data show that the enzymatic equipment underlying the metabolism of glucose is not severely affected by Li-Pilo SE and confirm our previous observations concerning the relative metabolic hyperactivity of brain regions involved in the seizure circuit despite marked neuronal loss.
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PMID:Postnatal maturation of cytochrome oxidase and lactate dehydrogenase activity and age-dependent consequences of lithium-pilocarpine status epilepticus in the rat: a regional histoenzymology study. 1529 83

The syndrome of benign familial neonatal convulsions (BFNC) is characterized by seizures starting within the first days of life and disappearing within weeks to months. BFNC is caused by loss-of-function mutations in the potassium channels KCNQ2 and KCNQ3 which can well explain the resulting neuronal hyperexcitability. However, it is not understood why seizures predominantly occur in the neonatal period. A potential explanation might be a change in the expression pattern of these channels during development. We therefore performed an immunohistochemical analysis of mouse brain slices at different stages of postnatal development using an antibody recognizing the C-terminus of the KCNQ2 channel. A widespread immunohistochemical staining was observed, particularly in the hippocampus, caudoputamen, globus pallidus, cortex, thalamus, hypothalamus and midbrain. In the adult mouse brain, a predominantly axonal staining pattern was found, most observed in the caudoputamen, the alveus and the mossy fiber pathway of the hippocampus. The hippocampal staining pattern of adult mice was not observed before P8 and gradually developed between P11 and P21. Differences in the distribution of KCNQ2 channels within neurons between the neonatal period and adult stages might contribute to the increased seizure susceptibility in BFNC in humans.
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PMID:Immunohistochemical analysis of KCNQ2 potassium channels in adult and developing mouse brain. 1650 Jun 30

Voltage-gated sodium channels (Na(V)) are critical for initiation of action potentials. Heterozygous loss-of-function mutations in Na(V)1.1 channels cause severe myoclonic epilepsy in infancy (SMEI). Homozygous null Scn1a-/- mice developed ataxia and died on postnatal day (P) 15 but could be sustained to P17.5 with manual feeding. Heterozygous Scn1a+/- mice had spontaneous seizures and sporadic deaths beginning after P21, with a notable dependence on genetic background. Loss of Na(V)1.1 did not change voltage-dependent activation or inactivation of sodium channels in hippocampal neurons. The sodium current density was, however, substantially reduced in inhibitory interneurons of Scn1a+/- and Scn1a-/- mice but not in their excitatory pyramidal neurons. An immunocytochemical survey also showed a specific upregulation of Na(V)1.3 channels in a subset of hippocampal interneurons. Our results indicate that reduced sodium currents in GABAergic inhibitory interneurons in Scn1a+/- heterozygotes may cause the hyperexcitability that leads to epilepsy in patients with SMEI.
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PMID:Reduced sodium current in GABAergic interneurons in a mouse model of severe myoclonic epilepsy in infancy. 1750 54

Accumulated evidence have shown that a series of morphological alternations occur in patients with epilepsy and in different epileptic animal models. Given most of animal model studies have been focused on adulthood stage, the effect of recurrent seizures to immature brain in neonatal period has not been well established. This study was designed to observe the certain morphological changes following recurrent seizures occurred in the neonatal rats. For seizure induction, neonatal Wistar rats were intraperitoneally injected with pilocarpine on postnatal day 1 (P1), P4 and P7. Rat pups were grouped and sacrificed at 1d, 7d, 14d and 42d after the last pilocarpine injection respectively. Bromodeoxyuridine (BrdU) was intraperitoneally administered 36h before the rats were sacrificed. BrdU single and double labeling with neuronal markers were used to analyze cell proliferation and differentiation. Nissl and Timm staining were performed to evaluate cell loss and mossy fiber sprouting. Rats with neonatal seizures had a significant reduction in the number of Bromodeoxyuridine-(BrdU) labeled cells in the dentate gyrus compared with the control groups when the animals were killed either 1 or 7 days after the third seizure (P<0.05) but there was no difference between two groups on P21. On the contrary, BrdU-labeled cells significantly increased in the experimental group compared with control group on P49 (P<0.05). The majority of the BrdU-labeled cells colocalized with neuronal marker-NF200 (Neurofilament-200). Nissl staining showed that there was no obvious neuronal loss after seizure induction over all different time points. Rats with the survival time of 42 days after neonatal seizures developed to increased mossy fiber sprouting in both the CA3 region and supragranular zone of the dentate gyrus compared with the control groups (P<0.05). Taken together, the present findings suggest that synaptic reorganization only occurs at the later time point following recurrent seizures in neonatal rats, and neonatal recurrent seizures can modulate neurogenesis oppositely over different time window with a down-regulation at early time and up-regulation afterwards.
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PMID:Consequences of pilocarpine-induced recurrent seizures in neonatal rats. 1700 43

The positive effect of physical exercise programs on seizure frequency and severity has been demonstrated both in adult human and animals. However, this investigation during animal brain development has not been examined. To this purpose, the present work was aimed to analyse the effect of physical exercise training in rats after weaning on the kindling process in the adulthood. Thirty rats were divided into 3 groups: the first group (EX=10) was submitted to daily bout of aerobic exercise (60 min running on the treadmill at 24/26 m/min) between P21 and 60 days of age. After this period of training, animals were submitted to 60 min running at the same speed and kindling stimulated one min post-exercise. The second group (SHAM=10) was maintained in the treadmill for the same time as the trained group without being submitted to physical exercise. The third group served as control (CTL=10). The number of stimulations required to reach stage 5 for the EX group was not statistically different from CTL and SHAM groups. However, the EX group spent a longer time and a shorter afterdischarge (AD) in stage 1 compared to the CTL and SHAM groups. The number of stimulations and AD duration in stage 2, 3 and 4 was not statistically different between all the groups. Taken together, our study showed that although forced physical exercise in developing rats does not exert significant influence to reach the stage 5 of amygdala kindling in the adult life its interference during the process of epileptogenesis indicate a positive effect of exercise in developing brain.
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PMID:Physical training in developing rats does not influence the kindling development in the adult life. 1719 28

An enriched environment can enhance brain recovery in animals with early-life status epilepticus (SE). The purpose of this study was to determine the effects of early-life SE on spatial memory and hippocampal extracellular signal-regulated kinase (ERK) level, and the possible therapeutic effects of the enriched environment. Rats were assigned randomly to four groups: (1) control rats (nonenriched control); (2) control rats housed in an enriched environment from Postnatal Day (P) 25 to P40 (enriched control); (3) rats in which SE was induced with lithium-pilocarpine (Li-PC) at P21 (nonenriched SE); and (4) rats in which SE was induced with Li-PC at P21 and then housed in an enriched environment from P25 to P40 (enriched SE). As adults, the rats underwent spatial learning and memory tests in the Morris water maze between P50 and P55. At P55, subsets of animals were evaluated for expression of hippocampal ERK1/2 phosphorylation immediately following completion of the Morris water maze. At ~P100, another set of animals was tested for seizure threshold. When studied as adults, only the nonenriched SE group had a spatial memory deficit. The nonenriched SE group also exhibited lower levels of phosphorylated ERK2 as compared with the nonenriched control, enriched control, and enriched SE groups. Both the nonenriched SE and enriched SE groups had reduced seizure thresholds as compared with the nonenriched control and enriched control groups. Results from this study demonstrate that an enriched environment improves spatial memory in rats subjected to early-life SE, possibly through upregulation of phosphorylated ERK2 in the hippocampus. However, an enriched environment has no effect on seizure threshold.
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PMID:An enriched environment improves cognitive performance after early-life status epilepticus accompanied by an increase in phosphorylation of extracellular signal-regulated kinase 2. 1782 56


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