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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Genetic programs and age-dependent changes in DNA and protein are involved in aging. The genetic program governs body weight, longevity, aging rate, sex-maturating period and metabolic rate in mammals, and such a number of life history variables are highly correlated with body size. Monogenic age-1 and daf-2 C. elegans mutants extend life span twice. However, human monogenic progeroids shorten lifespan. The Werner syndrome gene was mapped in 8p12. Mutations in the Cockayne syndrome genes (the
CSA
and CSB genes acting for preferential repair of active genes by interacting with transcription factor TFIIH) and in the
ataxia
telangictasia gene ATM (homologous with PI-3 kinase for signal transduction) have been disclosed. All such findings suggest a strong basis for the genetic program of aging. In addition, recent evidence indicates that genetic instability, such as telomere loss, somatic and mitochondrial DNA mutations, increases with age. In addition, amounts of carbonylated protein also increase during human aging, and greatly increase in an SOD-deficient C. elegans mutant, but to a less extent in long-living age-1. Therefore, the aging process involves gene action, genetic instability and protein oxidation. Dietary restriction and elimination of deleterious excessive reactive oxygen species may improve many abnormalities due to aging.
...
PMID:[The mechanisms of aging and perspective for elimination of deleterious effects]. 889 Jun 1
Cockayne syndrome (CS) is mainly caused by mutations in the Cockayne syndrome group A or B (
CSA
or CSB) genes which are required for a sub-pathway of nucleotide excision repair entitled transcription coupled repair. Approximately 20% of the CS patients have mutations in
CSA
, which encodes a 44 kDa tryptophane (Trp, W) and aspartic acid (Asp, D) amino acids (WD) repeat protein. Up to now, nine different
CSA
mutations have been identified. We examined two Somali siblings 9 and 12 years old with clinical features typical of CS including skin photosensitivity, progressive
ataxia
, spasticity, hearing loss, central and peripheral demyelination and intracranial calcifications. Molecular analysis showed a novel splice acceptor site mutation, a G to A transition in the -1 position of intervening sequence 6 (g.IVS6-1G>A), in the
CSA
(excision repair cross-complementing 8 (ERCC8)) gene. IVS6-1G>A results in a new 28 amino acid C-terminus and premature termination of the CSA protein (G184DFs28X). A review of the CSA protein and the 10 known
CSA
mutations is also presented.
...
PMID:A novel splice site mutation in the Cockayne syndrome group A gene in two siblings with Cockayne syndrome. 1708 38
Cockayne syndrome is a rare autosomal recessive disease. This paper reports a case of Cockayne syndrome confirmed by gene analysis. The baby (male, 7 years old) was referred to Peking University Third Hospital with recurrent desquamation, pigmentation and growth and development failure for 6 years, and recurrent dental caries and tooth loss for 2 years. Physical examination showed very low body weight, body length and head circumference, yellow hair, a lot of fawn spots on the face, skin dry and less elastic, and subcutaneous lipopenia. He had an unusual appearance with sunken eyes, sharp nose, sharp mandible, big auricle and dental caries and tooth loss. Crura spasticity and
ataxia
with excessive tendon reflexion, and ankle movement limitation while bending back were observed. He had slured speech. The level of serum insulin like growth factor I was low, and the results of blood and urinary amino acid analysis suggested malnutrition. The results of blood growth hormone, thyroxin, parathyroxin, liver function, renal function, lipoprotein profile and blood glucose and electrolytes were all within normal limit. An electronic hearing examination showed moderate neural hearing loss. The sonogram of eyes revealed small eye axis and vitreous body opacity of right side. MRI of brain revealed bilateral calcification of basal ganglia and generalized cerebral and cerebellar atrophy, and brainstem and callus were also atrophic. Genetic analysis confirmed with
CSA
gene mutation. So the boy was definitely diagnosed with Cockayne syndrome. He was discharged because of no effective treatment.
...
PMID:[Cockayne syndrome]. 2134 26
Cockayne is a segmental progeroid syndrome that has autosomal recessive inheritance pattern. It is mainly characterized by Intrauterine growth retardation, severe postnatal growth deficiency, cachectic dwarfism, microcephaly, wizened face, sensorineural hearing loss, cataracts, dental caries, cardiac arrhythmias, hypertension, atherosclerosis, proteinuria, micropenis, renal failure, skeletal abnormalities, skin photosensitivity, decreased subcutaneous adipose tissue, cerebral atrophy, dementia, basal ganglia calcifications,
ataxia
and apraxia. It has a complex phenotype given by genetic heterogeneity. There are five gene responsible for this syndrome:
CSA
, CSB, XPB, XPD and XPG, in which various mutations have been found. The biochemical effect of these mutations includes dysfunctional protein of the repair system for oxidative damage to DNA, the complex coupled to transcription and the nucleotide excision repair system. Considering the role played for these proteins and its effects on clinical phenotype when they are deficient, we suggest that these genes might be candidates for analyzing susceptibility to common chronic degenerative diseases related to oxidative stress and aging.
...
PMID:[The metabolic and molecular bases of Cockayne syndrome]. 2141 36
Cockayne syndrome (CS) is a rare autosomal recessive neurodegenerative disease that is associated with mutations in either of two transcription-coupled DNA repair genes,
CSA
or CSB. Mice with a targeted mutation in the Csb gene (Cs-b(m/m)) exhibit a milder phenotype compared with human patients with mutations in the orthologous CSB gene. Mice mutated in Csb were crossed with mice lacking Xpc (Xp-c(-/-)), the global genome repair gene, to enhance the pathological symptoms. These Cs-b(m/m).Xp-c(-/-) mice were normal at birth but exhibited progressive failure to thrive, whole-body wasting, and
ataxia
and died at approximately postnatal day 21. Characterization of Cs-b(m/m).Xp-c(-/-) brains at postnatal stages demonstrated widespread reduction of myelin basic protein (MBP) and myelin in the sensorimotor cortex, the stratum radiatum, the corpus callosum, and the anterior commissure. Quantification of individual axons by electron microscopy showed a reduction in both the number of myelinated axons and the average diameter of myelin surrounding the axons. There were no significant differences in proliferation or oligodendrocyte differentiation between Cs-b(m/m).Xp-c(-/-) and Cs-b(m/+).Xp-c(-/-) mice. Rather, Cs-b(m/m).Xp-c(-/-) oligodendrocytes were unable to generate sufficient MBP or to maintain the proper myelination during early development. Csb is a multifunctional protein regulating both repair and the transcriptional response to reactive oxygen through its interaction with histone acetylase p300 and the hypoxia-inducible factor (HIF)1 pathway. On the basis of our results, combined with that of others, we suggest that in Csb the transcriptional response predominates during early development, whereas a neurodegenerative response associated with repair deficits predominates in later life.
...
PMID:Dysmyelination not demyelination causes neurological symptoms in preweaned mice in a murine model of Cockayne syndrome. 2239 14
