UMLS:C0036572 - FACTA Search

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

Expression patterns of cathepsin D (lysosomal aspartic protease) and glial fibrillary acidic protein (GFAP, a marker of reactive astroglia) were determined by Northern blot analysis and immunohistochemistry in the rat brain during neurodegeneration accompanying kainate-evoked seizures. The level of cathepsin D mRNA in the hippocampus, limbic cortex, and temporo-parieto-occipital neocortex was shown to increase, starting at 6 h after kainate treatment, and reaching peak values at 3-7 days after the neurotoxin administration. A similar time course of elevated accumulation was noted for GFAP mRNA in these structures. Immunohistochemical analysis performed 3 days after kainate treatment showed that the increased cathepsin D levels were confined mainly to the degenerating neurons in the susceptible brain areas, while the elevated GFAP immunoreactivity was observed in reactive astrocytes. Although cathepsin D and GFAP expression levels were elevated by kainate administration, their expression patterns revealed significant differences with regard to both intensity and site of induction.
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PMID:Elevated cathepsin D expression in kainate-evoked rat brain neurodegeneration. 758 34

A mutant amyloid precursor protein (APP/RK) designed to interfere with processing by alpha-secretase caused a severe phenotype in transgenic mice, including behavioural abnormalities, i.e. neophobia, aggression, hypersensitivity to kainic acid, hyposensitivity to N-methyl-D-aspartate, and premature death [Moechars D. et al. (1996) Eur. molec. Biol. Org. J. 15, 1265-1274]. We now demonstrated that the APP/RK transgene did not disturb the expression of several other genes, i.e. endogenous amyloid precursor protein and amyloid precursor protein-like proteins, members of the low density lipoprotein receptor lipoprotein receptor family and several of their ligands, including apolipoprotein E, but expression of alpha-2-macroglobulin was never detected. Neither amyloid deposits nor neurofibrillary tangles were detected in the brain of APP/RK transgenic mice, even when 15-months-old. The tendency for seizures and hyposensitivity for N-methyl-D-aspartate was not due to or reflected in the distribution of the three major types of glutamate receptors. The major and consistent finding in transgenic APP/RK mice that died prematurely was extensive neurodegeneration and apoptosis, mainly in hippocampus and cortex, and accompanied by astrocytosis throughout the brain. Reduced synaptic density and dendritic damage was only observed in three transgenic mice that were killed shortly after positive observation of seizures. In addition, the distribution of cathepsin D and ubiquitin was abnormal in these mice.
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PMID:Premature death in transgenic mice that overexpress a mutant amyloid precursor protein is preceded by severe neurodegeneration and apoptosis. 1039 65

Cathepsin D-deficient (CD-/-) mice have been shown to manifest seizures and become blind near the terminal stage [approximately postnatal day (P) 26]. We therefore examined the morphological, immunocytochemical, and biochemical features of CNS tissues of these mice. By electron microscopy, autophagosome/autolysosome-like bodies containing part of the cytoplasm, granular osmiophilic deposits, and fingerprint profiles were demonstrated in the neuronal perikarya of CD-/- mouse brains after P20. Autophagosomes and granular osmiophilic deposits were detected in neurons at P0 but were few in number, whereas they increased in the neuronal perikarya within days after birth. Some large-sized neurons having autophagosome/autolysosome-like bodies in the perikarya appeared in the CNS tissues, especially in the thalamic region and the cerebral cortex, at P17. These lysosomal bodies occupied the perikarya of almost all neurons in CD-/- mouse brains obtained from P23 until the terminal stage. Because these neurons exhibited autofluorescence, it was considered that ceroid lipofuscin may accumulate in lysosomal structures of CD-/- neurons. Subunit c of mitochondrial ATP synthase was found to accumulate in the lysosomes of neurons, although the activity of tripeptidyl peptidase-I significantly increased in the brain. Moreover, neurons near the terminal stage were often shrunken and possessed irregular nuclei through which small dense chromatin masses were scattered. These results suggest that the CNS neurons in CD-/- mice show a new form of lysosomal accumulation disease with a phenotype resembling neuronal ceroid lipofuscinosis.
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PMID:Cathepsin D deficiency induces lysosomal storage with ceroid lipofuscin in mouse CNS neurons. 1099 34

Although of clinical importance, little is known about the mechanism of seizure in neuronal ceroid lipofuscinosis (NCL). In the present study, we have attempted to elucidate the mechanism underlying the seizure of cathepsin D-deficient (CD-/-) mice that show a novel type of lysosomal storage disease with a phenotype resembling late infantile NCL. In hippocampal slices prepared from CD-/- mice at post-natal day (P)24, spontaneous burst discharges were recorded from CA3 pyramidal cells. At P24, the mean amplitude of IPSPs after stimulation of the mossy fibres was significantly smaller than that of wild-type mice, which was substantiated by the decreased level of gamma-aminobutyric acid (GABA) contents in the hippocampus measured by high-performance liquid chromatography (HPLC). At this stage, activated microglia were found to accumulate in the pyramidal cell layer of the hippocampal CA3 subfield of CD-/- mice. However, there was no significant change in the numerical density of GABAergic interneurons in the CA3 subfield of CD-/- mice at P24, estimated by counting the number of glutamate decarboxylase (GAD) 67-immunoreactive somata. In the hippocampus and the cortex of CD-/- mice at P24, some GABAergic interneurons displayed extremely high somatic granular immunoreactivites for GAD67, suggesting the lysosomal accumulation of GAD67. GAD67 levels in axon terminals abutting on to perisomatic regions of hippocampal CA3 pyramidal cells was not significantly changed in CD-/- mice even at P24, whereas the total protein levels of GAD67 in both the hippocampus and the cortex of CD-/- mice after P24 were significantly decreased as a result of degradation. Furthermore, the recombinant human GAD65/67 was rapidly digested by the lysosomal fraction prepared from the whole brain of wild-type and CD-/- mice. These observations strongly suggest that the reduction of GABA contents, presumably because of lysosomal degradation of GAD67 and lysosomal accumulation of its degraded forms, are responsible for the dysfunction of GABAergic interneurons in the hippocampal CA3 subfield of CD-/- mice.
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PMID:Proteolytic degradation of glutamate decarboxylase mediates disinhibition of hippocampal CA3 pyramidal cells in cathepsin D-deficient mice. 1599 79

Congenital neuronal ceroid-lipofuscinosis (NCL) is a devastating inherited neurodegenerative disorder of unknown metabolic basis. Eight patients with this rare disorder, all with similar clinical and neuropathological findings, have been reported, and here we describe two further patients. Previously, we showed that a mutation in the cathepsin D gene causes congenital NCL in sheep. On the basis of the neuropathological and ultrastructural similarities between the sheep and patients affected with congenital NCL, we screened the cathepsin D gene for mutations in a patient of Pakistani origin. We identified a nucleotide duplication, c.764dupA, in the cathepsin D gene in homozygous form in the patient, and in heterozygous form in his father. This duplication is likely to be disease-causing, as it creates a premature stop codon, predicting a truncation of the protein. When transiently expressed in cell cultures, the mutant protein was enzymatically inactive, but stable. In paraffin-embedded brain tissue samples of two affected siblings of the Pakistani patient, cathepsin D was absent, suggesting rapid degradation of the c.764dupA mutant cathepsin D at mRNA or protein level in vivo. Further, we were able to confirm lack of cathepsin D in the brain tissue of yet another, unrelated, patient of English origin with congenital NCL. On the basis of the present data, and the nearly identical clinical and/or pathological phenotype of the other reported cases of congenital NCL, it is reasonable to suggest that cathepsin D deficiency caused by mutations in the corresponding gene may underlie all cases of congenital NCL. The present observations also suggest that cathepsin D deficiency should be considered as a possible diagnosis in microcephalic neonates, who present with seizures at or before birth.
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PMID:Cathepsin D deficiency underlies congenital human neuronal ceroid-lipofuscinosis. 1673 59

The neuronal ceroid lipofuscinoses (NCLs, Batten disease) are a group of fatal recessively inherited neurodegenerative diseases of humans and animals characterised by common clinical signs and pathology. These include blindness, ataxia, dementia, behavioural changes, seizures, brain and retinal atrophy and accumulation of fluorescent lysosome derived organelles in most cells. A number of different variants have been suggested and seven different causative genes identified in humans (CLN1, CLN2, CLN3, CLN5, CLN6, CLN8 and CTSD). Animal models have played a central role in the investigation of this group of diseases and are extremely valuable for developing a better understanding of the disease mechanisms and possible therapeutic approaches. Ovine models include flocks of affected New Zealand South Hampshires and Borderdales and Australian Merinos. The ovine CLN6 gene has been sequenced in a representative selection of these sheep. These investigations unveiled the mutation responsible for the disease in Merino sheep (c.184C>T; p.Arg62Cys) and three common ovine allelic variants (c.56A>G, c.822G>A and c.933_934insCT). Linkage analysis established that CLN6 is the gene most likely to cause NCL in affected South Hampshire sheep, which do not have the c.184C>T mutation but show reduced expression of CLN6 mRNA in a range of tissues as determined by real-time PCR. Lack of linkage precludes CLN6 as a candidate for NCL in Borderdale sheep.
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PMID:A missense mutation (c.184C>T) in ovine CLN6 causes neuronal ceroid lipofuscinosis in Merino sheep whereas affected South Hampshire sheep have reduced levels of CLN6 mRNA. 1704 13

Lysosomal membrane permeabilization (LMP) is implicated in cancer cell death. However, its role and mechanism of action in neuronal death remain to be established. In the present study, we investigate the function of cellular zinc in oxidative stress-induced LMP using hippocampal neurons. Live-cell confocal microscopy with FluoZin-3 fluorescence showed that H(2)O(2) exposure induced vesicles containing labile zinc in hippocampal neurons. Double staining with LysoTracker or MitoTracker disclosed that the majority of the zinc-containing vesicles were lysosomes and not mitochondria. H(2)O(2) additionally augmented the 4-hydroxy-2-nonenal (HNE) adduct level in lysosomes. Intracellular zinc chelation with TPEN [tetrakis(2-pyridylmethyl)ethylenediamine] completely blocked both HNE accumulation and neuronal death. Interestingly, within 1 h after the onset of H(2)O(2) exposure, some of zinc-loaded vesicles lost their zinc signals. Consistent with the characteristics of LMP, a lysosomal enzyme, cathepsin D, was released into the cytosol, and cathepsin inhibitors partially rescued neuronal death. We further examined the possibility that HNE or zinc mediates H(2)O(2)-triggered LMP. Similar to H(2)O(2), exposure to HNE or zinc triggered lysosomal zinc accumulation and LMP. Moreover, isolated lysosomes underwent LMP when exposed to HNE or zinc, but not H(2)O(2), supporting the direct mediation of LMP by HNE and/or zinc. The appearance of zinc-containing vesicles and the increases in levels of cathepsin D and HNE, were also observed in hippocampal neurons of rats after kainate seizures. Thus, under oxidative stress, neuronal lysosomes accumulate zinc and HNE, and eventually undergo LMP, which may constitute a key mechanism of oxidative neuronal death.
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PMID:Zinc and 4-hydroxy-2-nonenal mediate lysosomal membrane permeabilization induced by H2O2 in cultured hippocampal neurons. 1835 14

Although inborn errors of metabolism (IEM) are a relatively rare cause of epilepsy in children, their diagnosis is important with respect to treatment, prognosis and genetic counselling. In addition to seizures and epilepsy, IEM may produce a complex clinical picture in which epilepsy is only one of the various neurologic manifestations including developmental delay/regression, mental retardation, movement disorders, micro-/macrocephaly, as well as cerebral grey and white matter changes. Dysmorphic features and cerebral dysgenesis may also be part of a metabolic epilepsy syndrome (e.g. disorders of peroxisomal biogenesis, glutaric aciduria type 2, pyruvate dehydrogenease complex deficiency). Metabolic epilepsies may dominate the clinical presentation (e.g. pyridoxine dependent epilepsy) or may precede further neurologic deterioration (e.g. neuronal ceroid lipofuscinosis) and additional organ involvement (e.g. liver failure in Alpers (POLG1) disease). Metabolic epilepsies often present with myoclonic seizures (e.g. Gaucher Disease type 3, mitochondrial syndromes) and, as a rule, patients presenting with predominantly myoclonic seizures should be carefully investigated for these types of metabolic epilepsies. Patients with very early onset of epilepsy are considered at high risk for an underlying IEM as well. In this review we present an overview of metabolic epilepsies based on various criteria such as treatability, age of onset, seizure type, and pathogenetic background. Exemplary disorders will be described in more detail including cerebral glucose transporter (GLUT1) deficiency, pyridoxine dependent epilepsy, neuronal ceroid lipofuscinosis, cathepsin D deficiency, Alpers syndrome (POLG deficiency), and guanidinoacetate methyltransferase (GAMT) deficiency.
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PMID:Metabolic epilepsies: approaches to a diagnostic challenge. 1976 Sep 6

Calorie restriction (CR), the purposeful reduction of energy intake with maintenance of adequate micronutrient intake, is well known to extend the lifespan of laboratory animals. Compounds like 2-deoxy-D-glucose (2DG) that can recapitulate the metabolic effects of CR are of great interest for their potential to extend lifespan. 2DG treatment has been shown to have potential therapeutic benefits for treating cancer and seizures. 2DG has also recapitulated some hallmarks of the CR phenotype including reduced body temperature and circulating insulin in short-term rodent trials, but one chronic feeding study in rats found toxic effects. The present studies were performed to further explore the long-term effects of 2DG in vivo. First we demonstrate that 2DG increases mortality of male Fischer-344 rats. Increased incidence of pheochromocytoma in the adrenal medulla was also noted in the 2DG treated rats. We reconfirm the cardiotoxicity of 2DG in a 6-week follow-up study evaluating male Brown Norway rats and a natural form of 2DG in addition to again examining effects in Fischer-344 rats and the original synthetic 2DG. High levels of both 2DG sources reduced weight gain secondary to reduced food intake in both strains. Histopathological analysis of the hearts revealed increasing vacuolization of cardiac myocytes with dose, and tissue staining revealed the vacuoles were free of both glycogen and lipid. We did, however, observe higher expression of both cathepsin D and LC3 in the hearts of 2DG-treated rats which indicates an increase in autophagic flux. Although a remarkable CR-like phenotype can be reproduced with 2DG treatment, the ultimate toxicity of 2DG seriously challenges 2DG as a potential CR mimetic in mammals and also raises concerns about other therapeutic applications of the compound.
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PMID:Chronic ingestion of 2-deoxy-D-glucose induces cardiac vacuolization and increases mortality in rats. 2002 95

Deficiency in Cathepsin D (CtsD), the major cellular lysosomal aspartic proteinase, causes the congenital form of neuronal ceroid lipofuscinoses (NCLs). CtsD-deficient mice show severe visceral lesions like lymphopenia in addition to their central nervous system (CNS) phenotype of ceroid accumulation, microglia activation, and seizures. Here we demonstrate that re-expression of CtsD within the CNS but not re-expression of CtsD in visceral organs prevented both central and visceral pathologies of CtsD(-/-) mice. Our results suggest that CtsD was substantially secreted from CNS neurons and drained from CNS to periphery via lymphatic routes. Through this drainage, CNS-expressed CtsD acts as an important modulator of immune system maintenance and peripheral tissue homeostasis. These effects depended on enzymatic activity and not on proposed functions of CtsD as an extracellular ligand. Our results furthermore demonstrate that the prominent accumulation of ceroid/lipofuscin and activation of microglia in brains of CtsD(-/-) are not lethal factors but can be tolerated by the rodent CNS.
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PMID:CNS-expressed cathepsin D prevents lymphopenia in a murine model of congenital neuronal ceroid lipofuscinosis. 2048 46

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