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)

Juvenile neuronal ceroid lipofuscinosis (JNCL) belongs to the neuronal ceroid lipofuscinoses characterized by blindness/seizures/motor/cognitive decline and early death. JNCL is caused by CLN3 gene mutations that negatively modulate cell growth/apoptosis. CLN3 protein (CLN3p) localizes to Golgi/Rab4-/Rab11-positive endosomes and lipid rafts, and harbors a galactosylceramide (GalCer) lipid raft-binding domain. Goals are proving CLN3p participates in GalCer transport from Golgi to rafts, and GalCer deficits negatively affect cell growth/apoptosis. GalCer/mutant CLN3p are retained in Golgi, with CLN3p rescuing GalCer deficits in rafts. Diminishing GalCer in normal cells by GalCer synthase siRNA negatively affects cell growth/apoptosis. GalCer restores JNCL cell growth. WT CLN3p binds GalCer, but not mutant CLN3p. Sphingolipid content of rafts/Golgi is perturbed with diminished GalCer in rafts and accumulation in Golgi. CLN3-deficient raft vesicular structures are small by transmission electron microscopy, reflecting altered sphingolipid composition of rafts. CLN1/CLN2/CLN6 proteins bind to lysophosphatidic acid/sulfatide, CLN6/CLN8 proteins to GalCer, and CLN8 protein to ceramide. Sphingolipid composition/morphology of CLN1-/CLN2-/CLN6-/CLN8- and CLN9-deficient rafts are altered suggesting changes in raft structure/lipid stoichiometry could be common themes underlying these diseases.
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PMID:CLN3p impacts galactosylceramide transport, raft morphology, and lipid content. 1831 35

Juvenile neuronal ceroid lipofuscinoses (JNCL), commonly known as Batten disease, is a progressive neurodegenerative disorder of childhood characterized by blindness, seizures, motor and cognitive decline, leading to death in early adulthood. Mutations within the CLN3 gene, which encodes a putative lysosomal protein of unknown function, are the underlying cause of JNCL. Over 85% of JNCL patients harbor a 1 kb deletion that is predicted to result in a truncated CLN3 protein and is presumed to be a null mutation. A recent study by Kitzmuller et al. (1) suggested that the 1 kb deletion-associated truncated protein may have partial function, and proposed that JNCL is a mutation-specific disease. In addition, the validity of the original and most widely utilized JNCL mouse model, the Cln3(Deltaex1-6) mouse, as a true null mutant was questioned. We report a substantial decrease in the transcript level of the truncated CLN3 gene product in cells from 1 kb deletion patients. We contend that the truncated CLN3 protein is unlikely to be expressed in JNCL patients since cellular quality control mechanisms at the RNA and protein levels are likely to degrade the mutant transcript and polypeptides. Moreover, we present analysis identifying the expressed transcripts present in Cln3(Deltaex1-6) mouse brain. From the analysis of expressed Cln3(Deltaex1-6) mouse transcripts, combined with in silico prediction of the expected consequences of the Cln3(Deltaex1-6) mutation on these transcripts, we argue that aberrant Cln3 proteins are unlikely to be expressed in this disease model. Taken together our results indicate that the most common mutation associated with JNCL results in a loss of functional CLN3, that the Cln3(Deltaex1-6) mouse harbors a null Cln3 allele, and that it therefore represents a valid model for this disease.
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PMID:Transcript and in silico analysis of CLN3 in juvenile neuronal ceroid lipofuscinosis and associated mouse models. 1867 98

The neuronal ceroid lipofuscinoses (NCLs) are the commonest neurodegenerative disorders of children. The aims of this study were to determine the incidence of NCL in Newfoundland, identify the causative genes, and analyze the relationship between phenotype and genotype. Patients with NCL diagnosed between 1960 and 2005 were ascertained through the provincial genetics and pediatric neurology clinics. Fifty-two patients from 34 families were identified. DNA was obtained from 28/34 (82%) families; 18 families had mutations in the CLN2 gene, comprising five different mutations of which two were novel. One family had a CLN3 mutation, another had a novel mutation in CLN5, and five families shared the same mutation in CLN6. One family was misdiagnosed, and in two, molecular testing was inconclusive. Disease from CLN2 mutations had an earlier presentation (p = 0.003) and seizure onset (p < 0.001) compared with CLN6 mutation. There was a slower clinical course for those with CLN5 mutation compared with CLN2 mutation. NCL in Newfoundland has a high incidence, 1 in 7353 live births, and shows extensive genetic heterogeneity. The incidence of late infantile NCL, 9.0 per 100,000 (or 1 in 11,161) live births, is the highest reported in the world.
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PMID:The clinical and genetic epidemiology of neuronal ceroid lipofuscinosis in Newfoundland. 1868 16

Juvenile neuronal ceroid lipofuscinosis (JNCL), or Batten disease, is a neurodegenerative disease resulting from a mutation in CLN3, which presents clinically with visual deterioration, seizures, motor impairments, cognitive decline, hallucinations, loss of circadian rhythm, and premature death in the late-twenties to early-thirties. Using a Cln3 null (Cln3(-/-)) mouse, we report here several deficits in the cerebellum in the absence of Cln3, including cell loss and early onset motor deficits. Surprisingly, early onset glial activation and selective neuronal loss within the mature fastigial pathway of the deep cerebellar nuclei (DCN), a region critical for balance and coordination, are seen in many regions of the Cln3(-/-) cerebellum. Additionally, there is a loss of Purkinje cells (PC) in regions of robust Bergmann glia activation in Cln3(-/-) mice and human JNCL post-mortem cerebellum. Moreover, the Cln3(-/-) cerebellum had a mis-regulation in granule cell proliferation and maintenance of PC dendritic arborization and spine density. Overall, this study defines a novel multi-faceted, early-onset cerebellar disruption in the Cln3 null brain, including glial activation, cell loss, and aberrant cell proliferation and differentiation. These early alterations in the maturation of the cerebellum could underlie some of the motor deficits and pathological changes seen in JNCL patients.
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PMID:Cerebellar defects in a mouse model of juvenile neuronal ceroid lipofuscinosis. 1923 Aug 32

Juvenile neuronal ceroid lipofuscinosis (JNCL), also known as Batten disease, is a fatal inherited neurodegenerative disorder. The major clinical features of this disease are vision loss, seizures and progressive cognitive and motor decline starting in childhood. Mutations in CLN3 are known to cause the disease, allowing the generation of mouse models that are powerful tools for JNCL research. In this study, we applied behavioural phenotyping protocols to test for early behavioural alterations in Cln3(Deltaex7/8) knock-in mice, a genetic model that harbours the most common disease-causing CLN3 mutation. We found delayed acquisition of developmental milestones, including negative geotaxis, grasping, wire suspension time and postural reflex in both homozygous and heterozygous Cln3(Deltaex7/8) preweaning pups. To further investigate the consequences of this neurodevelopmental delay, we studied the behaviour of juvenile mice and found that homozygous and heterozygous Cln3(Deltaex7/8) knock-in mice also exhibit deficits in exploratory activity. Moreover, when analysing motor behaviour, we observed severe motor deficits in Cln3(Deltaex7/8) homozygous mice, but only a mild impairment in motor co-ordination and ambulatory gait in Cln3(Deltaex7/8) heterozygous animals. This study reveals previously overlooked behaviour deficits in neonate and young adult Cln3(Deltaex7/8) mice indicating neurodevelopmental delay as a putative novel component of JNCL.
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PMID:Neurodevelopmental delay in the Cln3Deltaex7/8 mouse model for Batten disease. 1924 53

To report a novel treatment approach, pallidotomy and deep brain stimulation (DBS), in two sisters with dystonic storm due to Batten's disease. This study is based on long-term follow-up of two sisters, presenting with dystonic storm and their response to pallidotomy and DBS. These sisters, who had visual loss, seizures, and progressive psychomotor decline, experienced progressive disabling abnormal movements culminating in dystonic storm at the age of 15 and 17 years, respectively. In addition to intubation and sedation, multiple medications, including botulinum toxin injections and intrathecal baclofen infusion were tried in both patients without any benefit. The old sister underwent bilateral pallidotomy. Within 10 days postoperatively, there was marked improvement in dystonic storm. She was free of abnormal movements for 9 months. Then she started having opisthotonus lasting 20 seconds to an hour several times/day, but over 6 years abnormal movements are markedly improved, and not returned to pre-pallidotomy level. The young sister underwent both bilateral pallidotomy and DBS, 3 weeks apart. She was free of abnormal movements for 7 months and able to maintain reduction in the abnormal movements by adjusting DBS settings. Pallidotomy and DBS should be considered in dystonic storm due to Batten's disease.
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PMID:Dystonic storm due to Batten's disease treated with pallidotomy and deep brain stimulation. 1935 21

The juvenile neuronal ceroid lipofuscinosis (JNCL, Batten disease, MIM 204200), is an autosomal recessive lysosomal storage disease, which is characterized by ubiquitous accumulation of the lipopigment material ceroid-lipofuscin. It manifests with loss of vision in childhood due to retinal degeneration, followed by seizures and parkinsonism leading to premature death at around 30 years. Eighty-five percent of JNCL patients carry a disease-causing 1.02 kb deletion in the CLN3 gene on chromosome 16. Here we report on a large consanguineous Lebanese family with five affected siblings. Electron microscopy of lymphocytes revealed the presence of fingerprint profiles suggesting JNCL. However, disease progression, especially of mental and motor function was slower as expected for 'classic' JNCL. We thus confirmed the diagnosis by genetic testing and found a new c.597C>A transversion in exon 8, homozygous in all affected family members and not present in 200 alleles of normal controls. The mutation generates a premature termination codon (p.Y199X) truncating the CLN3 protein by 55%. In heterozygous state mutant mRNA transcripts are expressed at the same levels as the wild-type ones, suggesting the absence of nonsense mediated messenger decay. We discuss a potential residual catalytic function of the truncated protein as a cause for the mild phenotype.
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PMID:Protracted course of juvenile ceroid lipofuscinosis associated with a novel CLN3 mutation (p.Y199X). 1948 75

Juvenile neuronal ceroid lipofuscinoses, or Batten disease, is the most common type of NCL in the United States and Europe. This devastating disorder presents with vision failure and progresses to include seizures, motor dysfunction, and dementia. Death usually occurs in the third decade, but some patients die before age twenty. Though the mechanism of visual failure remains poorly understood, recent advances in molecular genetics have improved diagnostic testing and suggested possible therapeutic strategies. The ophthalmologist plays a crucial role in both early diagnosis and documentation of progression of juvenile neuronal ceroid lipofuscinoses. We update Batten disease research, particularly as it relates to the eye, and present various theories on the pathophysiology of retinal degeneration.
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PMID:Juvenile neuronal ceroid lipofuscinosis (JNCL) and the eye. 1953 34

Juvenile neuronal ceroid lipofuscinosis (JNCL) is one type of the neuronal ceroid lipofuscinosis (NCLs), which is a group of pediatric neurodegenerative disorders. The symptoms of JNCL are retinal degeneration (rd), seizures, cognitive, and motor decline. The pathogenesis, summarized in this review, include apoptosis, autophagy, dysfunction in the structure associated with plasmalemma, oxidative stress and disruption of nitric oxide signaling, dysfunction of the mitochondrial and lysosome, unbalanced intracellular pH, and other relative mechanisms. Among them, only apoptosis and autophagy are well known. In apoptosis, the defects in CLN3 result in ceramide accumulation and upstream of mitochondrial membrane per-meabilization, which eventually induce caspase-dependent and caspase-independent cell death. Autophagy exists but is disrupted because the immaturity of autophagic vacuoles leads to the failure of autophagy circulation. Understanding of the pathogenesis, especially the pathways of cell death in JNCL, is helpful to explore the mechanism of neurodegenerative dis-orders, such as JNCL.
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PMID:[Mechanisms of juvenile neuronal ceroid lipofuscinosis (JNCL)]. 1968 37

Juvenile neuronal ceroid lipofuscinosis (JNCL) or Batten disease is an autosomal recessive neurodegenerative disorder of children caused by mutation in CLN3. JNCL is characterized by progressive visual impairment, cognitive and motor deficits, seizures and premature death. Information about the localization of CLN3 expressing neurons in the nervous system is limited, especially during development. The present study has systematically mapped the spatial and temporal localization of CLN3 reporter neurons in the entire nervous system including retina, using a knock-in reporter mouse model. CLN3 reporter is expressed predominantly in post-migratory neurons in visual and limbic cortices, anterior and intralaminar thalamic nuclei, amygdala, cerebellum, red nucleus, reticular formation, vestibular nuclei and retina. CLN3 reporter in the nervous system is mainly expressed during the first postnatal month except in the dentate gyrus, parasolitary nucleus and retina, where it is still strongly expressed in adulthood. The predominant distribution of CLN3 reporter neurons in visual, limbic and subcortical motor structures correlates well with the clinical symptoms of JNCL. These findings have also revealed potential target brain regions and time periods for future investigations of the disease mechanisms and therapeutic intervention.
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PMID:A knock-in reporter mouse model for Batten disease reveals predominant expression of Cln3 in visual, limbic and subcortical motor structures. 2087 58

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