Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We clinically assessed and performed polymerase chain reaction analysis for the GAA trinucleotide repeat expansion in 103 patients from 73 families in Ireland, with a prior clinical diagnosis of Friedreich's ataxia (FA) or an unclassified progressive ataxic syndrome. The patients were classified as "typical" or "atypical" FA according to Harding's mandatory clinical diagnostic criteria. All patients underwent blood glucose analysis, and electrocardiography and echocardiography was performed in 99 and 101 patients, respectively. Mutation screening for expanded CAG trinucleotide repeats, associated with spinocerebellar ataxia (SCA) 1, 2, 3 and 6 was performed in 86 patients overall, including all GAA negative patients. Forty-nine of 56 typical patients and 13 of 47 atypical patients were either homozygous or heterozygous for the GAA expansion. Seven patients with a typical FA phenotype were negative for the GAA expansion. Although one of these patients had vitamin E deficiency, and two had raised alpha-fetoprotein levels, three other GAA negative patients with a typical FA phenotype had no other identifiable cause for their ataxia, once again raising the possibility of locus heterogeneity in FA. It is also possible that these patients have two point mutations in the X25 gene, or that they have another ataxic syndrome mimicking the FA phenotype. Two families who were homozygous for the GAA expansion exhibited intrafamilial phenotypic variability. Only one GAA negative patient had the SCA 3 mutation, and this was the only patient in the study with a possible autosomal dominant inheritance pattern. In the homozygous GAA population typical patients had significantly more repeats on the smaller allele than atypical patients, and there was an inverse relationship between the number of repeats on the smaller allele and the age at presentation. There was also an inverse relationship between the repeat size on both the larger and the smaller of the two alleles and the age at becoming wheelchair bound. There was no significant relationship between repeat size and the other indices of disease severity, including the presence or absence of diabetes or cardiomyopathy. This is the first large study of an Irish population with progressive ataxia that has shown a similar phenotype/genotype relationship to studies of FA in other European and non-European populations. The relatively low sensitivity and specificity of Harding's clinical diagnostic criteria must be appreciated when clinically assessing patients with a progressive ataxic syndrome. Although molecular genetic analysis now plays an essential role in diagnosis and classification, patients with a typical FA phenotype without any identifiable cause for their ataxia exist.
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PMID:Typical Friedreich's ataxia without GAA expansions and GAA expansion without typical Friedreich's ataxia. 1089 66

Friedreich's ataxia, an autosomal recessive neurodegenerative disorder characterized by progressive gait and limb ataxia, cardiomyopathy, and diabetes mellitus, is caused by decreased frataxin production or function. The structure of human frataxin, which we have determined at 1.8-A resolution, reveals a novel protein fold. A five-stranded, antiparallel beta sheet provides a flat platform, which supports a pair of parallel alpha helices, to form a compact alphabeta sandwich. A cluster of 12 acidic residues from the first helix and the first strand of the large sheet form a contiguous anionic surface on the protein. The overall protein structure and the anionic patch are conserved in eukaryotes, including animals, plants, and yeast, and in prokaryotes. Additional conserved residues create an extended 1008-A(2) patch on a distinct surface of the protein. Side chains of disease-associated mutations either contribute to the anionic patch, help create the second conserved surface, or point toward frataxin's hydrophobic core. These structural findings predict potential modes of protein-protein and protein-iron binding.
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PMID:Crystal structure of human frataxin. 1090 Jan 92

Lipoproteins modified by oxidation, glycation, alkylation, and nitration are generated by oxidative stress during inflammation, diabetes, and inadequate supply of dietary antioxidants. A family of genes, the scavenger receptors, recognizes and internalizes modified lipoproteins, making them susceptible to degradation. Clearance of modified lipoproteins by scavenger receptors occurs mainly in macrophages, dendritic cells, and Kupffer cells of the liver. However, scavenger receptor expression also occurs in other cells, such as endothelial cells, aortic smooth muscle cells, neuronal cells, and keratinocytes. Thus, the local clearance of oxidized low-density lipoprotein and the resolution of inflammatory processes may rely in part on the expression of scavenger receptors in "nonprofessional" phagocytes. Uptake of oxidized low-density lipoprotein, without an efficient machinery to degrade them and uncontrolled expression of scavenger receptors, may lead to cellular deregulation, apoptosis, and formation of foam cells. Diseases accompanied by oxidation of lipoproteins, such as atherosclerosis, Alzheimer disease, glomerulosclerosis, ataxia with vitamin E deficiency, and possibly age-dependent lipofuscin deposition, may share a common pathogenetic feature. This review will focus on foam cell formation, mainly within the atherosclerotic lesion, and the possible involvement of aberrant regulation of the scavenger receptor genes. To date, the regulatory mechanisms at the basis of scavenger receptor gene expression and their roles in atherosclerosis and other diseases are not well established. Knowledge on this subject could lead to a better understanding of the pathogenesis, prevention, and therapy of these diseases.
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PMID:Scavenger receptors and modified lipoproteins: fatal attractions? 1090 71

A whole range of cell functions are regulated by the free cytosolic Ca(2+)concentration. Activator Ca(2+)from the extracellular space enters the cell through various types of Ca(2+)channels and sometimes the Na(+)/Ca(2+)-exchanger, and is actively extruded from the cell by Ca(2+)pumps and Na(+)/Ca(2+)-exchangers. Activator Ca(2+)can also be released from internal Ca(2+)stores through inositol trisphosphate or ryanodine receptors and is taken up into these organelles by means of Ca(2+)pumps. The resulting Ca(2+)signal is highly organized in space, frequency and amplitude because the localization and the integrated free cytosolic Ca(2+)concentration over time contain specific information. Mutations or functional abnormalities in the various Ca(2+)transporters, which in vitro seem to induce trivial functional alterations, therefore, often lead to a plethora of diseases. Skeletal-muscle pathology can be caused by mutations in ryanodine receptors (malignant hyperthermia, porcine stress syndrome, central-core disease), dihydropyridine receptors (familial hypokalemic periodic paralysis, malignant hyperthermia, muscular dysgenesis) or Ca(2+)pumps (Brody disease). Ca(2+)-pump mutations in cutaneous epidermal keratinocytes and cochlear hair cells lead to, skin diseases (Darier and Hailey-Hailey) and hearing/vestibular problems respectively. Mutated Ca(2+)channels in the photoreceptor plasma membrane cause vision problems. Hemiplegic migraine, spinocerebellar ataxia type-6, one form of episodic ataxia and some forms of epilepsy can be due to mutations in plasma-membrane Ca(2+)channels, while antibodies against these channels play a pathogenic role in all patients with the Lambert-Eaton myasthenic syndrome and may be of significance in sporadic amyotrophic lateral sclerosis. Brain inositol trisphosphate receptors have been hypothesized to contribute to the pathology in opisthotonos mice, manic-depressive illness and perhaps Alzheimer's disease. Various abnormalities in Ca(2+)-handling proteins have been described in heart during aging, hypertrophy, heart failure and during treatment with immunosuppressive drugs and in diabetes mellitus. In some instances, disease-causing mutations or abnormalities provide us with new insights into the cell biology of the various Ca(2+)transporters.
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PMID:Abnormal intracellular ca(2+)homeostasis and disease. 1094

The urgent need to optimise treatment strategies for patients with Multiple Sclerosis (MS) was recognised by the participants at the 1998 European Charcot Foundation (ECF) symposium in Nice. The 'Nice Declaration' led to the formation of a Task Force Essentials Group charged with developing measures of the quality of MS care in Europe. Algorithms for nine critical domains (disability, spasticity, ataxia, pain, cognition, mood, fatigue, bladder function and sexual activity) and 'educated guesses' have been developed to measure interventions and outcomes which reflect the quality of clinical decision-making processes. A generic model called a 'quality network', consisting of a group of clinics connected to a central server, has been successfully applied to the care of diabetes across Europe. This model will now be developed and applied to MS management, to provide clinicians with longitudinal epidemiological data and, to evolve treatment algorithms and further quality measures. The ECF will next validate the system in a 1-year pilot study using a net of 10 clinics. Finally, an extended European network working in a learning environment will continuously assess, update and improve the quality of care of MS patients. Multiple Sclerosis (2000) 6 231 - 236
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PMID:A quality network model for the daily care of multiple sclerosis. 1096 43

Wolfram syndrome (WS) is an autosomal recessive neurodegenerative disease mainly characterized by familial diabetes mellitus and optic atrophy. WS patients frequently present with other clinical features such as diabetes insipidus, renal abnormalities, psychiatric disorders, and a variety of neurologic symptoms: deafness, ataxia, peripheral neuropathy. A gene responsible for Wolfram Syndrome (WFS1) has been recently identified on chromosome 4p16.1. Twenty-two Wolfram patients from 16 Spanish families were screened for mutations in the WFS1 coding region by SSCP analysis and direct sequencing. Since WS has been considered a mitochondrial disorder for some time, mitochondrial DNA (mtDNA) in these families was also examined. WFS1 mutations were detected in 75% of families (12 of 16). One of these mutations, an insertion of 16 base pairs in exon 4, turned out to be notably frequent in Spanish pedigrees. As many as 50% of pedigrees with WFS1 mutations harbored this insertion, either in one (33% of cases) or in two chromosomes (67%). Ten other mutations were identified: 7 missense changes, 2 deletions, and 1 nonsense mutation. Only 3 of these changes had been previously described in non-Spanish pedigrees. Large mtDNA rearrangements and LHON point mutations were detected in four and six families, respectively. No correlation could be established between WFS1 gene mutations and specific point mutations or rearrangements in mtDNA. We would suggest first screening for the 16-bp insertion in exon 4 when a new Spanish WS case is reported.
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PMID:Presence of a major WFS1 mutation in Spanish Wolfram syndrome pedigrees. 1116 32

Friedreich ataxia (FRDA), the most common autosomal recessive ataxia, is characterized by degeneration of the large sensory neurons and spinocerebellar tracts, cardiomyopathy and increased incidence in diabetes. FRDA is caused by severely reduced levels of frataxin, a mitochondrial protein of unknown function. Yeast knockout models as well as histological and biochemical data from heart biopsies or autopsies of FRDA patients have shown that frataxin defects cause a specific iron-sulfur protein deficiency and intramitochondrial iron accumulation. We have recently shown that complete absence of frataxin in the mouse leads to early embryonic lethality, demonstrating an important role for frataxin during mouse development. Through a conditional gene-targeting approach, we have generated in parallel a striated muscle frataxin-deficient line and a neuron/cardiac muscle frataxin-deficient line, which together reproduce important progressive pathophysiological and biochemical features of the human disease: cardiac hypertrophy without skeletal muscle involvement, large sensory neuron dysfunction without alteration of the small sensory and motor neurons, and deficient activities of complexes I-III of the respiratory chain and of the aconitases. Our models demonstrate time-dependent intramitochondrial iron accumulation in a frataxin-deficient mammal, which occurs after onset of the pathology and after inactivation of the Fe-S-dependent enzymes. These mutant mice represent the first mammalian models to evaluate treatment strategies for the human disease.
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PMID:Mouse models for Friedreich ataxia exhibit cardiomyopathy, sensory nerve defect and Fe-S enzyme deficiency followed by intramitochondrial iron deposits. 1117 86

Aceruloplasminemia is a newly recognized autosomal recessive disorder of iron metabolism that causes neurodegeneration of the retina and basal ganglia, as well as diabetes mellitus. The neurological symptoms in affected patients include involuntary movements, ataxia, and dementia reflecting the sites of iron deposition detected by MRI, and the regions of neurodegeneration observed at autopsy. Excess iron functions as a potent catalyst of biologic oxidation. CSF from affected patients revealed a threefold increased iron concentration associated with increased superoxide dismutase activity and lipid peroxidation products. We found that the amount of iron accumulated in various regions of the brain and visceral organs is correlated with the levels of the oxysterols, including 7-hydroxycholesterol, and 7-ketocholesterol, which are directly produced from cholesterol by active oxygen species. Positron emission tomography done on brains of aceruloplasminemia patients showed cortical glucose hypometabolism. Enzyme activities in the mitochondrial respiratory chain of the cerebral cortices of the patients were reduced to approximate 62% and 71%, respectively, for complexes I and IV. These findings suggest that iron-mediated free radicals contribute to lipid peroxidation and the impairment of mitochondrial energy metabolism in aceruloplasminemia.
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PMID:[Neuronal cell damage in aceruloplasminemia]. 1121 1

Ceruloplasmin is an abundant alpha 2-serum glycoprotein that contains greater than 95% of the copper present in human plasma. It is synthesized mainly in the liver. Aceruloplasminemia is an autosomal recessive disorder affecting iron metabolism, originally called familial apoceruloplasmin deficiency, which manifests late-onset blepharospasm and retinal degeneration. Subsequent investigations have found patients with late adult onset of ataxia and diabetes mellitus. Our patients have also shown diabetes. Clinically, aceruloplasminemia is a triad consisting of neurologic disease, retinal degeneration, and diabetes. This disease is characterized by mutations in the ceruloplasmin gene and iron accumulation in the retina and basal ganglia as well as in parenchymal tissues caused by a complete deficiency of ceruloplasmin ferroxidase activity. The neurological symptoms in affected patients include involuntary movements, ataxia, and dementia reflecting the sites of iron deposition detected by MRI as well as the regions of neurodegeneration observed at autopsy. Consistent with this observation, ceruloplasmin gene expression is detected in the retina and basal ganglia revealing that this protein is essential for iron homeostasis neuron survival in the central nervous system. The unique involvement of the central nervous system distinguishes aceruloplasminemia from other inherited and acquired iron storage disorders.
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PMID:[Aceruloplasminemia]. 1146 82

Stiff man syndrome (SMS), an uncommon neurological disease, is characterised by symmetrical muscle stiffness and spasms that often lead to skeletal deformity. Variants of the syndrome may involve one limb only (stiff leg syndrome), a variety of additional neurological symptoms and signs such as eye movement disturbances, ataxia, or Babinski signs (progressive encephalomyelitis with rigidity and myoclonus), or be associated with malignant disease (paraneoplastic SMS). Antineuronal autoimmunity and accompanying autoimmune diseases, most often insulin-dependent diabetes mellitus, are characteristic features of SMS and its variants. The condition is frequently misinterpreted as psychogenic movement disturbance, but electromyographic abnormalities and the presence of autoantibodies against glutamic acid decarboxylase (GAD) in both serum and cerebrospinal fluid help to establish the correct diagnosis. The aetiology of SMS is obscure. However, several features suggest that SMS is an autoimmune-mediated chronic encephalomyelitis. In line with this hypothesis, immunomodulation with a front-loaded methylprednisolone regimen reduces stiffness and spasms and improves other neurological symptoms in the majority of patients. Plasmapheresis or intravenous immunoglobulins are effective less frequently. For symptomatic treatment, the benzodiazepines are drugs of first choice. An alternative of last resort is baclofen administered intrathecally via an implanted pump device.
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PMID:Stiff man syndrome. 1151 Jun 22


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