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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Friedreich ataxia is an autosomal recessive ataxia with onset usually before puberty whose characteristic clinical features include progressive ataxia of gait and limbs, dysarthria, loss of joint position and vibratory sense, absent knee and ankle jerks, and Babinski signs. Foot deformity, scoliosis,
diabetes mellitus
, and cardiac involvement are common and characteristic. Patients survive until about age 30 years although longer survivals occur. A later onset, more slowly progressive form seems to be an allelic variant. The basic process seems to be a dying-back of neuronal processes. Using linkage mapping techniques, the classical form of Friedreich ataxia has been localized to 9q13-q21, a region on the long arm of chromosome 9. Haplotype analysis, analysis of recombinants, and physical mapping techniques, including construction of a YAC contig, have narrowed the interval for the Friedreich ataxia gene,
FRDA
, to a few hundred thousand base pairs. Candidate genes in the region are being studied by techniques of mutation analysis. It is likely that the Freidreich ataxia gene will be cloned soon. A condition resembling Friedreich ataxia with decreased vitamin E levels has been localized to chromosome 8 and is discussed elsewhere.
...
PMID:Friedreich ataxia. 761 92
A variable expansion of a GAA repeat is present in the first intron of the frataxin gene, also termed
FRDA1
or X25. Long repeat lengths (>66 repeats) are present in patients with Friedreich's ataxia, while an intermediate expansion (10-66 repeats) has recently been reported to be highly associated with type 2 diabetes. Using a polymerase chain reaction-based assay, we found that 32.4% (95%CI 29.9-34.9) of 636 Danish Caucasian type 2 diabetic patients were carriers of an intermediate expansion, whereas the frequency was 30.4% (26.4-34.4) among 224 matched glucose-tolerant control subjects (P = 0.6). In the control subjects, the values of serum insulin and C-peptide responses during an oral glucose tolerance test were similar between the 69 carriers and 155 noncarriers. Furthermore, we investigated a possible relationship between expansions of the
FRDA1
gene and glucose-induced beta-cell function in 338 young Caucasians (33.7% [30.1-37.3] carriers) and in 215 glucose-tolerant subjects (31.0% [26.6-35.4] carriers) with a type 2 diabetic parent. In neither population did the carriers differ from noncarriers according to values of fasting plasma glucose, serum insulin, or C-peptide, acute serum insulin, or C-peptide responses after intravenous glucose. In conclusion, intermediate expansion of the frataxin trinucleotide repeat is not associated with type 2 diabetes or altered glucose-induced insulin secretion in Danish Caucasians.
Diabetes
1999 Apr
PMID:Intermediate expansions of a GAA repeat in the frataxin gene are not associated with type 2 diabetes or altered glucose-induced beta-cell function in Danish Caucasians. 1010 12
Friedreich ataxia is an autosomal recessive disorder caused by mutations in the
FRDA
gene that encodes a 210-amino acid protein called frataxin. An expansion of a GAA trinucleotide repeat in intron 1 of the gene is present in more than 95% of mutant alleles. Of the 83 people we studied who have mutations in
FRDA
, 78 are homozygous for an expanded GAA repeat; the other five patients have an expansion in one allele and a point mutation in the other. Here we present a detailed clinical and genetic study of a subset of 51 patients homozygous for an expansion of the GAA repeat. We found a correlation between the size of the smaller of the two expanded alleles and age at onset, age into wheelchair, scoliosis, impaired vibration sense, and the presence of foot deformity. There was no significant correlation between the size of the smaller allele and cardiomyopathy,
diabetes mellitus
, loss of proprioception, or bladder symptoms. The larger allele size correlated with bladder symptoms and the presence of foot deformity. The duration of disease is correlated with wheelchair use and the presence of
diabetes
, scoliosis, bladder symptoms and impaired proprioception, and vibration sense but no other complications studied.
...
PMID:Clinical and genetic study of Friedreich ataxia in an Australian population. 1053 31
Friedreich's ataxia is an autosomal recessive neuro-degenerative disorder involving both central and peripheral nervous system. Patients also show a systemic clinical picture presenting heart disease and
diabetes mellitus
or glucose intolerance. The disease is caused by mutations in the
FRDA
gene mapped on chromosome 9q13. The product of the gene is frataxin, an 18 kDa soluble mitochondrial protein with 210 amino acids. Crystal structure suggests a new, not previously reported, protein fold. The most frequent mutation is the expansion of a GAA trinucleotide repeat located within the first intron of the gene, and represents 98% of the mutations. Point mutations are described in compound heterozygous subjects with one expanded allele. A two-step model of GAA normal alleles towards premutation alleles, which might generate further full expanded mutations in the population with Indo-European ancestry, has been postulated. Clinical phenotype is variable and an inverse correlation with the GAA expansion size has been observed. Analysis of the GAA triplet is a strong molecular tool for clinical diagnosis, genetic counselling and prenatal diagnosis. Friedreich's ataxia patho-genesis is not solved yet. Substantial data from organism models, such the S. cerevisae yeast and more recently conditioned knock-outs in mouse, and studies in heart biopsies and fibroblast cultures from patients suggest an important role of mitochondrial iron in the development of the disease. Iron is accumulated in the mitochondrial matrix of both the yeast frataxin deficient mutant and the patient fibroblasts. It has been postulated that iron-induced oxygen radical affects the oxidative phosphorylation in frataxin deficiency states favouring the disease pathology. A second hypothesis postulates a direct role of frataxin in the mitochondrial energy activation and oxidative phosphorylation. Iron chelator drugs and antioxidant drugs have been postulated for Friedreich's treatment. No results from clinical trials are available yet, but idebenone, a short-chain quinone, seems to reduce the size of hypertrophic cardiomyopathy and levels of oxidative stress molecules in patients.
...
PMID:Friedreich's ataxia and frataxin: molecular genetics, evolution and pathogenesis (Review). 1135 Dec 69
Friedreich's ataxia (FA) is one of the genetic syndromes sometimes associated with
diabetes
and the most common hereditary ataxia. It is a autosomal recessive neurodegenerative disease, caused by a mutation in the
FRDA
gene, which originates decreased expression of frataxin, a mitochondrial protein involved in iron metabolism. The disorder is usually manifest in childhood and is characterised by ataxia, dysarthria, scoliosis and feet deformity. About two thirds of patients have hypertrophic cardiomyopathy, 10% have
diabetes
and 20% have another glucose homeostasis disorder. Both insulin resistance and beta-cell dysfunction are implicated in this patients'
diabetes
pathophysiology. The mean half-life is 35 years. Cause of death is usually related to cardiomyopathy or
diabetes
' complications. We report the case study of two twin sisters with 28 years old, in whom FA was diagnosed in the first decade, both of them with
diabetes
since their early twenties. A third sister with FA is reported, with no glucose homeostasis disorder. They also have two healthy male brothers. Based in this cases, the FA associated
diabetes
pathophysiology is discussed, concerning the therapeutic approach to these patients and to their diabetic relatives without neurologic symptoms. The role of molecular genetic testing and genetic counselling are also debated.
...
PMID:[Friedreich ataxia and diabetes mellitus--family study]. 1668 89
Friedreich's ataxia (
FRDA
; OMIM 229300), an autosomal recessive neurodegenerative mitochondrial disease, is the most prevalent hereditary ataxia. In addition,
FRDA
patients have shown additional non-neurological features such as scoliosis,
diabetes
, and cardiac complications. Hypertrophic cardiomyopathy, which is found in two thirds of patients at the time of diagnosis, is the primary cause of death in these patients. Here, we used small RNA-seq of microRNAs (miRNAs) purified from plasma samples of
FRDA
patients and controls. Furthermore, we present the rationale, experimental methodology, and analytical procedures for dataset analysis. This dataset will facilitate the identification of miRNA signatures and provide new molecular explanation for pathological mechanisms occurring during the natural history of
FRDA
. Since miRNA levels change with disease progression and pharmacological interventions, miRNAs will contribute to the design of new therapeutic strategies and will improve clinical decisions.
...
PMID:Small RNA-seq analysis of circulating miRNAs to identify phenotypic variability in Friedreich's ataxia patients. 2950 86
