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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We report our observations in an Australian family with spinocerebellar
ataxia
type 14 (SCA 14). We describe a novel mutation in exon 5 of the
PRKCG
gene, altering a highly conserved cysteine to a phenylalanine at codon 150, and record the detailed clinical observations in six affected family members.
...
PMID:Spinocerebellar ataxia type 14: study of a family with an exon 5 mutation in the PRKCG gene. 1629 2
Spinocerebellar ataxia type 1 (SCA1) is an incurable neurodegenerative disease resulting from loss of Purkinje neurones within the cerebellum. The ubiquitin proteasome pathway (UPP) has been implicated in SCA1 but the role of proteolysis in the disease is still poorly understood. To further investigate this issue in vivo, genetic crosses were performed between an established mouse model of SCA1 and novel strains expressing elevated levels of wild type or mutant isoforms of ubiquitin. The K48R mutant isoform of ubiquitin (a dominant negative inhibitor of proteolysis) was found to significantly delay the deterioration of Purkinje neurones as evidenced by behavioural, morphological, and molecular indicators. This delay was accompanied by stabilization of p300/CBP, transcriptional mediators whose abundance and activity would otherwise decline in the course of the SCA1 disease, and persistence of
protein kinase C gamma
(
PKCgamma
), a protein involved in Purkinje cell dendritic development that is mutated in one form of spinocerebellar
ataxia
. Whereas the stabilization of p300/CBP was found to occur at the post-translational level the modulation of
PKCgamma
was at the level of transcription. These results are consistent with transcriptional dysregulation as a key mechanism in neurodegeneration through loss of p300/CBP. Further, the results suggest that the UPP is a potentially useful target for the development of novel therapies for the treatment of neurodegenerative disease.
...
PMID:Delayed spinocerebellar ataxia in transgenic mice expressing mutant ubiquitin. 1640 51
We report on a family with an autosomal dominant cerebellar ataxia in which we identified a novel mutation in exon 5 of the
PRKCG
/
SCA14
gene that results in a Val138Glu substitution in the encoded protein PKCgamma. While most affected subjects displayed a late-onset uncomplicated form of spinocerebellar
ataxia
with occasional mild extrapyramidal features (such as postural tremor), one patient presented with a very mild nonprogressive
ataxia
since the age of 3 years and predominant multifocal myoclonus.
...
PMID:Novel PRKCG/SCA14 mutation in a Dutch spinocerebellar ataxia family: expanding the phenotype. 1654 18
Spinocerebellar ataxia type 14 (SCA14) is an autosomal dominant neurodegenerative disorder characterized by cerebellar ataxia and intermittent axial myoclonus. Various mutations have been found in the
PRKCG
gene encoding
protein kinase C gamma
in SCA14 families. Most of those mutations have been found in exon 4 of the
PRKCG
gene. We performed polymerase chain reaction (PCR)-based screening to clarify the approximate morbidity rate of the disease in the Japanese SCA population. We screened exon 4 of the
PRKCG
gene in 882 SCA patients with undefined etiologies using denaturing high-performance liquid chromatography and subsequent direct sequencing. We found a novel C/T missense mutation with a Ser119-to-Phe substitution (S119F) in 2 patients and subsequently found that they belonged to the same family. This S119F mutation was not found in 259 control individuals. Further PCR-based analysis revealed an additional 5 members with the same mutation in this family. Cerebellar ataxia was manifested in 5 of those 7 members. The main symptom in 4 of the 5 affected members was pure cerebellar ataxia with late onset. They had no myoclonus, extrapyramidal signs, ophthalmoplegia, or intellectual disturbance, some of which were found in previously reported SCA families. One patient showed intractable epilepsy, severe walking disturbance, and trunk
ataxia
with early onset. The results of this study suggest that the frequency of SCA14 in the Japanese SCA population is very low.
...
PMID:Identification of a new family of spinocerebellar ataxia type 14 in the Japanese spinocerebellar ataxia population by the screening of PRKCG exon 4. 1676 84
We describe a novel mutation in the gene coding for
protein kinase C gamma
(
PRKCG
) in patients of a German family affected with slowly progressive gait
ataxia
, dysarthria, and nystagmus. The G/T missense mutation occurred in exon 2 of
PRKCG
and results in a substitution of glycine by valine (G63V) in the evolutionarily highly conserved cysteine-rich region 1/C1 domain of
PRKCG
. Among the 20 mutations described to date, this is the first mutation located in exon 2 of
PRKCG
.
...
PMID:Spinocerebellar ataxia 14: novel mutation in exon 2 of PRKCG in a German family. 1714 11
Progressive myoclonic
ataxia
, also referred to as Ramsay Hunt syndrome, is characterized by a combination of myoclonus and cerebellar ataxia, infrequently accompanied by tonic-clonic seizures. Its differential diagnosis overlaps with progressive myoclonic epilepsy, a syndrome with myoclonus, tonic-clonic seizures, progressive
ataxia
and dementia. In patients with progressive myoclonic epilepsy, specific diseases can frequently be recognized, but the diagnostic yield in progressive myoclonic
ataxia
is much lower. We describe a patient who presented with multifocal myoclonus in his thirties and who later developed cerebellar ataxia and focal dystonia. His father was similarly affected. Genetic studies revealed a mutation in the
protein kinase C gamma
(
PRKCG
) gene, known to cause spinocerebellar
ataxia
type 14 (SCA-14). This case illustrates that both myoclonus and dystonia are part of the clinical spectrum in SCA-14 and that myoclonus can even be the presenting symptom. We suggest that SCA-14 should be considered in the differential diagnosis of progressive myoclonic
ataxia
.
...
PMID:PRKCG mutation (SCA-14) causing a Ramsay Hunt phenotype. 1734 73
Failure to control oxidative stress is closely related to aging and to a diverse range of human diseases. We have reported that
protein kinase C gamma
(
PKCgamma
) acts as a primary oxidative stress sensor in the lens.
PKCgamma
has a Zn-finger C1B stress switch domain, residues 101-150. Mutation, H101Y, in the C1B domain of
PKCgamma
proteins causes a failure of the
PKCgamma
oxidative stress response [Lin, D., Takemoto, D.J., 2005. Oxidative activation of protein kinase Cgamma through the C1 domain. Effects on gap junctions. J. Biol. Chem. 280, 13682-13693]. Some human neurodegenerative spinocerebellar
ataxia
type 14 are caused by mutations in the
PKCgamma
C1B domain. In the current study we have investigated the effects of these mutations on lens epithelial cell responses to oxidative stress. The results demonstrate that
PKCgamma
C1B mutants had lower basal enzyme activities and were not activated by H(2)O(2). Furthermore, the
PKCgamma
mutations caused a failure of endogenous wild type
PKCgamma
to be activated by H(2)O(2). These
PKCgamma
mutations abolished the effect of H(2)O(2) on phosphorylation of Cx43 and Cx50 by H(2)O(2) activation of
PKCgamma
. The cells with
PKCgamma
C1B mutations had more Cx43 and/or Cx50 gap junction plaques which were not decreased by H(2)O(2). Since open gap junctions could have a bystander effect this could cause apoptosis to occur. H(2)O(2) (100 microM, 3 h) activated a caspase-3 apoptotic pathway in the lens epithelial cells but was more severe in cells expressing
PKCgamma
mutations. The presence of 18alpha-glycyrrhetinic acid (AGA), an inhibitor of gap junctions, decreased Cx43 and Cx50 protein levels and gap junction plaque number. This reduction in gap junctions by AGA resulted in inhibition of H(2)O(2)-induced apoptosis. Our results demonstrate that there is a dominant negative effect of
PKCgamma
C1B mutations on endogenous
PKCgamma
which results in loss of control of gap junctions. Modeled structures suggest that the severity of C1B mutation effects may be related to the extent of loss of C1B structure. Mutations in the C1B domain of
PKCgamma
result in increased apoptosis in lens epithelial cells. This can be prevented by a gap junction inhibitor. Thus, propagation of apoptosis from cell-to-cell in lens epithelial cells may be through open gap junctions. The control of gap junctions requires
PKCgamma
.
...
PMID:Protein kinase C gamma mutations in the C1B domain cause caspase-3-linked apoptosis in lens epithelial cells through gap junctions. 1749 14
Mutations in the
protein kinase C gamma
(
PKCgamma
) gene cause spinocerebellar
ataxia
type 14 (SCA14), a heterogeneous neurodegenerative disorder. Synthetic peptides (C1B1) serve as gap junction inhibitors through activation of
PKCgamma
control of gap junctions. We investigated the neuroprotective potential of these peptides against SCA14 mutation-induced cell death using neuronal HT22 cells. The C1B1 synthetic peptides completely restored
PKCgamma
enzyme activity and subsequent control of gap junctions.
PKCgamma
SCA14 mutant proteins were shown to cause aggregation which initially resulted in endoplasmic reticulum (ER) stress and cell apoptosis as demonstrated by phosphorylation of PERK on Thr981, activation of caspase-12, increases in BiP/GRP78 protein levels, and consequent activation of caspase-3. Pre-incubation with C1B1 peptides completely abolished these SCA14 effects on ER stress and caspase-3 activation, suggesting that C1B1 peptides protect cells from apoptosis through inhibition of gap junctions by restoration of
PKCgamma
control of gap junctions, which may result in neuroprotection in SCA14.
...
PMID:Protection from ataxia-linked apoptosis by gap junction inhibitors. 1782 69
Several causal missense mutations in
protein kinase C gamma
(gamma PKC) gene have been found in spinocerebellar
ataxia
type 14 (SCA14), an autosomal dominant neurodegenerative disease. We previously demonstrated that mutant gamma PKC found in SCA14 is susceptible to two types of aggregation, cytoplasmic dot-like and perinuclear massive aggregation, and causes cell death in Chinese hamster ovary cells. Long-term time-lapse imaging revealed that firstly accumulated dot-like aggregation of mutant gamma PKC-green fluorescent protein (GFP) gradually formed perinuclear massive aggregations, followed by cell death. However, it remains unclear how aggregate formation of mutant gamma PKC causes cell death. In the present study, we examined whether these mutant aggregations affect the ubiquitin-proteasome system (UPS) and endoplasmic reticular (ER) stress. Two mutant gamma PKC-GFPs (S119P and G128D) were strongly ubiquitinated, and dot-like aggregations of these mutants were ubiquitin-positive and colocalized with proteasome 20S. Furthermore, proteasome activity in cells with aggregates, especially massive ones, was significantly decreased. Aggregate formation of mutant gamma PKC-GFP induced phosphorylation of PERK (PKR-like ER kinase) and nuclear expression of CHOP (C/EBP homologous protein), hallmarks of ER stress and subsequently activated caspase-3. These results indicate that aggregate formation of mutant gamma PKC found in SCA14 impairs UPS and induces ER stress, leading to apoptotic cell death.
...
PMID:Aggregate formation of mutant protein kinase C gamma found in spinocerebellar ataxia type 14 impairs ubiquitin-proteasome system and induces endoplasmic reticulum stress. 1800 63
Hereditary spinocerebellar
ataxia
(SCA) is a cluster of heterogeneous disorders. At now, 29 dominant loci have been assigned. Responsible genes and mutations are determined in at least 14 of them. In recessive and X-linked SCAs, 15 loci have been mapped, and mutation in each gene is determined by 6 disorders. Molecular mechanism of those SCAs are variable. Generally, deletion, insertion, or substitution in a gene modifies the primary structure of mRNA, subsequently resulting in disturbance of transcription or in translation of mutant proteins showing loss-of-function or dominant negative effect. Large expansion of tandem repeat in promotor region or intron suppress translation of the gene, thus causing similar effect. Expansion of (CAG)n in coding exon is translated into proteins containing elongated poly-Q. Since the poly-Q fragment is cytotoxic, this kind of mutation causes protein toxic gain-of-function. In addition, RNA toxic gain-of-function mechanism recently gains attention as a new molecular mechanism of SCA8 and SCA10. Clinically, dominant SCA with dynamic mutation shows variable onset of age, severity, and variation of clinical phenotypes. Among this clinical complexity, vocal cord abductor paralysis in SCA1, familial parkinsonism in SCA2, vestibular dysfunction and axonal neuropathy in MJD, and axial myoclonus in
SCA14
, are reviewed for potential usefulness in clinical practice.
...
PMID:[Clinical feature and molecular genetics of hereditary spinocerebellar ataxia]. 1821 Aug 1
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