Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0004134 (ataxia)
15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 2-year-old girl with granulocytopenia developed fever followed by truncal ataxia and progressive neurologic regression. CT demonstrated symmetric low-density areas in the cerebral white matter. Sural nerve biopsy revealed axonal degeneration. Blood lactate levels were high, and serum levels of copper and ceruloplasmin and urinary excretion of copper were low. Cultured skin fibroblasts showed normal copper uptake. Treatment with oral copper administration normalized serum copper and ceruloplasmin levels, blood lactate levels, and granulocyte count. However, copper levels in the CSF were still low, and the patient showed no clinical improvement. We speculated that copper transport across the intestinal wall and across the blood-brain barrier was impaired.
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PMID:Non-Menkes-type copper deficiency with regression, lactic acidosis, and granulocytopenia. 186 16

Dementia--a syndrome of acquired intellectual deterioration--is an etiologically non-specific condition which is permanent, progressive, or reversible. In the evaluation of demented patients, a careful exposure history will determine the possible role of drugs, metals, or toxins. The physical examination may reveal focal deficits in cases of intracranial mass lesions and spasticity or ataxia of the lower limbs if hydrocephalus is present. Coexistance of dementia and peripheral neuropathy usually indicates a toxic or metabolic disorder. Asterixis, myoclonus, and postural tremor are common in toxic-metabolic dementias, while resting tremor, choreoathetosis, and rigidity occur in progressive extrapyramidal disorders. EEG is focally abnormal in cases of cerebral mass lesions and exhibits generalized slowing in toxic-metabolic encephalopathies. CT will aid in the identification of hydrocephalus, subdural hematomas, and intracranial mass lesions. A thorough laboratory evaluation including complete blood count, erythrocyte sedimentation rate, electrolytes, blood urea nitrogen and blood sugar, liver and thyroid tests, calcium and phosphorus levels, B12 and folate levels, serum copper and ceruloplasmin, VDRL, chest X-ray, electrocardiogram, and lumbar puncture may demonstrate treatable disorders that are adversely affecting intellectual function. Elderly individuals are particularly susceptible to the effects of toxic or metabolic disorders, and a mild dementia might be exaggerated by relatively minor fluctuations in metabolic status. Treatable causes of dementia should be considered in all demented patients.
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PMID:[Treatable dementia syndromes]. 358 48

Dementia, a syndrome of acquired intellectual deterioration, is an etiologically nonspecific condition that can be permanent or reversible. When evaluating demented patients, a careful exposure history will determine the possible role of drugs, metals, or toxins. Physical examination may reveal focal deficits in cases of intracranial mass lesions and spasticity or ataxia of the lower limbs if hydrocephalus is present. Coexistence of dementia and a peripheral neuropathy usually indicates the existence of a toxic or metabolic disorder. Depressed mood, sleep disturbance, anorexia, impotence, constipation, and psychomotor retardation indicate the presence of a depressive syndrome. Asterixis, myoclonus, and postural tremor are common in toxic-metabolic dementias, whereas resting tremor, choreoathetosis, or rigidity occur in progressive extrapyramidal disorder. EEG is focally abnormal in cases of cerebral mass lesions and shows generalized slowing in toxic-metabolic encephalopathies. CT will aid in the identification of hydrocephalus, subdural hematomas, and intracranial mass lesions. A thorough laboratory evaluation including complete blood count, erythrocyte sedimentation rate, electrolytes, blood urea nitrogen and blood sugar, liver and thyroid function tests, serum calcium and phosphorus levels, B12 and folate levels, serum copper and ceruloplasmin, VDRL, chest X-ray, electrocardiogram, and lumbar puncture may demonstrate treatable disorders that are adversely affecting intellectual function. Elderly individuals are particularly susceptible to the effects of toxic or metabolic disorders, and a mild dementia may be exaggerated by relatively minor fluctuations in metabolic status. Treatable causes of dementia should be sought in all demented patients.
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PMID:Treatable dementias. 635 58

A case of familial juvenile parkinsonism with dementia, orthostatic hypotension, neurogenic bladder and constipation was reported. He had been in a good health until the age of 28 when a finger tremor occurred on effort to hold hands in a definite position, and disturbances in gait and speech were noted. These symptoms were relieved by levodopa treatment followed by dyskinesia and motor fluctuations. Three years later, he complained of faintness, constipation and urinary frequency. The neurological examination revealed mentally sound male with masked face, tremor and rigidity in his extremities, and short step gait with lateropulsion. Urodynamic study showed uninhibited bladder. In the following years, orthostatic hypotension, dysuria and urinary retention developed gradually. He became mentally loose and was unable to take medicines appropriately. When in the Nishiojiya Byoin National Sanatorium, he tried to snake out the hospital many times. His parents and a brother suffered from Parkinson's disease and juvenile parkinsonism, respectively, suggesting an autosomal dominant inheritance. On admission to our hospital, he was apathetic. He had masked face, bilateral postural tremor, frozen gait and dyskinesia in the right lower extremity. Little bradykinesia or rigidity was noted. His muscle tone and deep tendon reflexes were decreased but neither muscular wasting, weakness, ataxia nor sensory disturbance was observed. Laboratory data including ceruloplasmin, copper, dopamine-beta-hydroxylase and lysosomal enzyme activities were normal except for mild anemia. A cranial CT scan revealed mild cortical atrophy in the frontal and temporal lobes, but nerve conduction study and cortical evoked potentials showed no abnormality. While in the hospital, his mental functions deteriorated to the state of dementia and orthostatic hypotension became apparent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Familial juvenile parkinsonism with dementia and autonomic failure--a case report]. 833 79

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

A 33-year-old male patient began to develop schizophrenia-like symptoms and slowly progressive cerebellar ataxia. He was 170 cm tall and he had mild frontal baldness. Psychiatrically he was aconative, only willing to do nothing all day long after admission. He had neither hallucinations nor delusions, and his mental acuity was normal. Neurological examination revealed positive cerebellar signs including clumsiness in F-N-T and K-H-T and dysdiadochokinesis. He could neither stand up nor walk because of ataxia. The brain MRI showed severe cerebellar atrophy with normal basal ganglia. His EEG and the value of NCV were within normal range, whereas electroretinography showed a notable abnormality, pointing to the extremely small b-wave, resulting in a negative shape of the ERG. Although he was eating sufficiently, the level of serum iron and ferritin remained constantly low. The serum copper level was within normal range, whereas the serum ceruloplasmin level was mildly decreased. A hepatic biopsy indicated no accumulation of copper or iron. This case suggests the importance of the investigation of the serum iron and ceruloplasmin levels in patients who have cerebellar degeneration with psychosis.
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PMID:[A case of cerebellar degeneration with schizophrenia-like psychosis, severe iron deficiency, hypoceruloplasminemia and abnormal electroretinography: a new syndrome?]. 1188 36

Aceruloplasminemia is characterized by iron accumulation in the brain as well as in visceral organs, due to the absence of ceruloplasmin ferroxidase activity. The neurological symptoms, which include involuntary movements, ataxia, and dementia, reflect the sites of iron deposition. The unique involvement of the central nervous system distinguishes aceruloplasminemia from other inherited and acquired iron storage disorders. Excess iron functions as a potent catalyst of biologic oxidation. An increased iron concentration was associated with increased lipid peroxidation in the brains of three aceruloplasminemia patients. Positron emission tomography showed brain glucose and oxygen hypometabolism. Enzyme activities in the mitochondrial respiratory chain of the basal ganglia were reduced to about 50 and 43%, respectively, for complexes I and IV. Those of the cerebral and cerebellar cortices also were decreased approximately 62 and 65%. These findings suggest that iron-mediated free radicals may contribute to neuronal cell damage through increased lipid peroxidation and the impairment of mitochondrial energy metabolism in aceruloplasminemia brains.
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PMID:Increased lipid peroxidation and mitochondrial dysfunction in aceruloplasminemia brains. 1254 32

Ceruloplasmin, a multi-copper ferroxidase that affects the distribution of tissue iron, has antioxidant effects through the oxidation of ferrous iron to ferric iron. Aceruloplasminemia is an inherited disorder of iron metabolism due to the complete lack of ceruloplasmin ferroxidase activity caused by mutations in the ceruloplasmin gene. It is characterized by iron accumulation in the brain as well as visceral organs. Clinically, the disease consists of the triad of retinal degeneration, diabetes mellitus, and neurological disease, which include ataxia, involuntary movements, and dementia. These symptoms reflect the sites of iron deposition. The unique involvement of the central nervous system distinguishes aceruloplasminemia from other inherited and acquired iron storage disorders. Twenty-one mutations in the ceruloplasmin gene have been reported in 24 families worldwide. In Japan, the incidence was estimated to be approximately one per 2,000,000 in the case of non-consanguineous marriages. Excess iron functions as a potent catalyst of biologic oxidation. Previously we showed that an increased iron concentration is associated with increased levels of lipid peroxidation in the serum, cerebrospinal fluid, and erythrocyte membranes. The levels of malondialdehyde and 4-hydroxynonenals, indicators of lipid peroxidation, were also elevated in the basal ganglia and cerebral cortex. Positron emission tomography showed diminished brain metabolism of glucose and oxygen. Enzyme activities in the mitochondrial respiratory chain of the basal ganglia were reduced to approximate 45% and 42%, respectively, for complexes I and IV. These findings suggest that iron-mediated free radicals causes neuronal cell damage through lipid peroxidation and mitochondrial dysfunction in aceruloplasminemia brains.
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PMID:Aceruloplasminemia, an inherited disorder of iron metabolism. 1257 80

Aceruloplasminemia is an inherited disorder of iron metabolism caused by the complete lack of ceruloplasmin ferroxidase activity caused by mutations in the ceruloplasmin gene. It is characterized by iron accumulation in the brain as well as visceral organs. Clinically, the disease consists of the triad of adult-onset neurologic disease, retinal degeneration and diabetes mellitus. The neurological symptoms, which include involuntary movements, ataxia, and dementia, reflect the sites of iron deposition. Severe iron overload and extensive neuronal loss were observed in the basal ganglia, while iron deposition and neuronal cell loss were trivial in the frontal cortices. The cerebellar cortex showed marked loss of Purkinje cells. Iron deposition was more prominent in the astrocytes than in the neurons. Excess iron functions as a potent catalyst of biologic oxidation. Astrocytic deformity and globular structures are characteristic features in aceruloplasminemia brains. The globular structures in the astrocytes were seen in proportion to the degree of iron deposition and reacted positively to anti-4-hydroxynonenal, one of the indicators of lipid peroxidation, and anti-ubiquitin antibodies, but not to anti-alpha-synuclein antibody. The lack of ceruloplasmin may primarily damage astrocytes in the aceruloplasminemia brains through lipid peroxidation. Ceruloplasmin may play an essential role in neuronal survival in the central nervous system.
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PMID:Aceruloplasminemia, an iron metabolic disorder. 1471 52

Iron is essential for oxidation-reduction catalysis and bioenergetics; however, unless appropriately shielded, this metal plays a crucial role in the formation of toxic oxygen radicals that can attack all biological molecules. Organisms are equipped with specific proteins designed for iron acquisition, export and transport, and storage, as well as with sophisticated mechanisms that maintain the intracellular labile iron pool at an appropriate level. Despite these homeostatic mechanisms, organisms often face the threat of either iron deficiency or iron overload. This review describes several hereditary iron-overloading conditions that are confined to the brain. Recently, a mutation in the L-subunit of ferritin has been described that causes the formation of aberrant L-ferritin with an altered C-terminus. Individuals with this mutation in one allele of L-ferritin have abnormal aggregates of ferritin and iron in the brain, primarily in the globus pallidus. Patients with this dominantly inherited late-onset disease present with symptoms of extrapyramidal dysfunction. Mice with a targeted disruption of a gene for iron regulatory protein 2 (IRP2), a translational repressor of ferritin, misregulate iron metabolism in the intestinal mucosa and the central nervous system. Significant amounts of ferritin and iron accumulate in white matter tracts and nuclei, and adult IRP2-deficient mice develop a movement disorder consisting of ataxia, bradykinesia, and tremor. Mutations in the frataxin gene are responsible for Friedreich's ataxia, the most common of the inherited ataxias. Frataxin appears to regulate mitochondrial iron-sulfur cluster formation, and the neurologic and cardiac manifestations of Friedreich's ataxia are due to iron-mediated mitochondrial toxicity. Patients with Hallervorden-Spatz syndrome, an autosomal recessive, progressive neurodegenerative disorder, have mutations in a novel pantothenate kinase gene (PANK2). The cardinal feature of this extrapyramidal disease is pathologic iron accumulation in the globus pallidus. The defect in PANK2 is predicted to cause the accumulation of cysteine, which binds iron and causes oxidative stress in the iron-rich globus pallidus. Finally, aceruloplasminemia is an autosomal recessive disorder of iron metabolism caused by loss-of-function mutations in ceruloplasmin gene that leads to misregulation of both systemic and central nervous system iron trafficking. Affected individuals suffer from extrapyramidal signs, cerebellar ataxia, progressive neurodegeneration of retina, and diabetes mellitus. Excessive iron depositions are found in the brain, liver, pancreas, and other parenchymal cells, but plasma iron concentrations are decreased. These conditions are not common, but awareness about them is important for differential diagnosis of various neurodegenerative disorders.
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PMID:Hereditary causes of disturbed iron homeostasis in the central nervous system. 1510 72


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