UMLS:C0022716 - FACTA Search

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Query: UMLS:C0022716 (Menkes)
1,057 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Menkes' disease is an X-linked disorder caused by impaired intracellular transport of copper. Currently, no therapy effectively arrests the relentless neurodegeneration of Menkes' disease. Previous neuroimaging reports of patients with Menkes' disease describe a range of abnormalities, including intracranial vessel tortuosity and cerebral white matter changes. We report two infants with Menkes' disease who developed ischemic cerebrovascular disease early in infancy. Magnetic resonance studies, including diffusion-weighted imaging and proton magnetic resonance spectroscopy, demonstrated bilateral infarctions of deep gray matter nuclei, a finding not previously described in Menkes' disease. Potential mechanisms for these cerebrovascular lesions in Menkes' disease include the susceptibility to free radical attack and inadequate energy supply from oxidative phosphorylation. These infarctions may play an unrecognized but important role in the neurodegeneration of children with Menkes' disease. The development of effective therapeutic agents against this disease will require a more detailed understanding of such underlying mechanisms.
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PMID:Cerebral infarction in Menkes' disease. 1111 99

Wilson disease is an autosomal recessive copper transport disorder resulting from defective biliary excretion of copper and subsequent hepatic copper accumulation and liver failure if not treated. The disease is caused by mutations in the ATP7B (WND) gene, which is expressed predominantly in the liver and encodes a copper-transporting P-type ATPase that is structurally and functionally similar to the Menkes protein (MNK), which is defective in the X-linked copper transport disorder Menkes disease. The toxic milk (tx) mouse has a clinical phenotype similar to Wilson disease patients and, recently, the tx mutation within the murine WND homologue (WND:) of this mouse was identified, establishing it as an animal model for Wilson disease. In this study, cDNA constructs encoding the wild-type (Wnd-wt) and mutant (Wnd-tx) Wilson proteins (Wnd) were generated and expressed in Chinese hamster ovary (CHO) cells. The tx mutation disrupted the copper-induced relocalization of Wnd in CHO cells and abrogated Wnd-mediated copper resistance of transfected CHO cells. In addition, co-localization experiments demonstrated that while Wnd and MNK are located in the trans-Golgi network in basal copper conditions, with elevated copper, these proteins are sorted to different destinations within the same cell. Ultrastructural studies showed that with elevated copper levels, Wnd accumulated in large multi-vesicular structures resembling late endosomes that may represent a novel compartment for copper transport. The data presented provide further support for a relationship between copper transport activity and the copper-induced relocalization response of mammalian copper ATPases, and an explanation at a molecular level for the observed phenotype of tx mice.
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PMID:Effect of the toxic milk mutation (tx) on the function and intracellular localization of Wnd, the murine homologue of the Wilson copper ATPase. 1115 99

Epileptic seizures are a common feature in Menkes disease, an X-linked genetic disorder of copper metabolism. Details of type of seizures are rarely reported. We report the evolution of infantile spasms in two patients with Menkes disease and the relation with subcutaneous administration of copper-histidine.
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PMID:Infantile spasms and Menkes disease. 1117 54

Menkes disease is a rare X-linked disorder related to a defect in the copper metabolism. According to the current literature, the most frequent neuroimaging findings are cortical atrophy, chronic subdural effusion or hygroma, and vascular abnormalities. White matter lesions may be present before other features of the disease and may evolve into atrophy. We hereby report a case of Menkes disease with typical history and progression, and an early phase imaging study with important white matter abnormalities, which could have lead to diagnostic difficulties.
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PMID:Menkes disease: case report of an uncommon presentation with white matter lesions. 1129 47

Menkes disease is an X-linked disorder of copper metabolism that is usually fatal. The affected gene has recently been cloned and encodes one of the two human copper ATPases. If the Menkes ATPase is defective, copper is trapped in the intestinal mucosa, leading to systemic copper deficiency. In order to study copper transport by this ATPase and the effects of disease mutations on its function, we developed a Xenopus laevis oocyte expression system. Wild-type Menkes ATPase cDNA and a fusion of this gene with the green fluorescent protein (GFP) gene was transcribed in vitro and the mRNA injected into oocytes. Expression in oocytes was analyzed by Western blotting and fluorescence microscopy. The Menkes ATPase-GFP chimera appeared to localize primarily to the plasma membrane as assessed by confocal microscopy. This system should thus provide an interesting new tool to study the function of the Menkes ATPase.
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PMID:Expression of the human Menkes ATPase in Xenopus laevis oocytes. 1140 36

Occipital horn syndrome, formerly known as Ehlers-Danlos syndrome type IX or X-linked cutis laxa, is an allelic variant of Menkes' syndrome. Although the clinical symptomatology and systemic pathology findings have been well described in occipital horn syndrome, the neuropathology has not previously been reported. A kindred affected by the X-linked occipital horn syndrome is followed at the University of Alabama at Birmingham. A severely mentally retarded dysmorphic man, who died at the age of 26 years, never gained the ability to walk or talk. Among other findings at autopsy, the patient had the skeletal anomalies previously described with occipital horn syndrome. Neuropathologic findings included neovascularization and extreme reduplication of the cerebral arteries, in conjunction with cystic medial degeneration; bilateral cerebellar hypoplasia; focal cortical dysplasia, and cerebellar heterotopias. These findings are similar to those seen in the brains of patients with Menkes' syndrome, which is not surprising, given the known phenotypic overlap and the proven allelism of occipital horn syndrome with classic Menkes' syndrome.
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PMID:Neuropathology of occipital horn syndrome. 1166 52

Menkes protein (ATP7A) is a P-type ATPase involved in copper uptake and homeostasis. Disturbed copper homeostasis occurs in patients with Menkes disease, an X-linked disorder characterized by mental retardation, neurodegeneration, connective tissue disorders, and early childhood death. Mutations in ATP7A result in malfunction of copper-requiring enzymes, such as tyrosinase and copper/zinc superoxide dismutase. The first step of the two-step amidation reaction carried out by peptidylglycine alpha-amidating monooxygenase (PAM) also requires copper. We used tissue from wild-type rats and mice and an ATP7A-specific antibody to determine that ATP7A is expressed at high levels in tissues expressing high levels of PAM. ATP7A is largely localized to the trans Golgi network in pituitary endocrine cells. The Atp7a mouse, bearing a mutation in the Atp7a gene, is an excellent model system for examining the consequences of ATP7A malfunction. Despite normal levels of PAM protein, levels of several amidated peptides were reduced in pituitary and brain extracts of Atp7a mice, demonstrating that PAM function is compromised when ATP7A is inactive. Based on these results, we conclude that a reduction in the ability of PAM to produce bioactive end-products involved in neuronal growth and development could contribute to many of the biological effects associated with Menkes disease.
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PMID:Menkes protein contributes to the function of peptidylglycine alpha-amidating monooxygenase. 1248 45

Menkes disease and occipital horn syndrome (OHS) are allelic neurogenetic disorders of copper transport associated with mutations in an X-linked gene, ATP7A. This gene encodes a copper-transporting P-type ATPase. The spectrum of mutations at the Menkes/OHS locus is estimated to include 1% chromosomal rearrangements and 15-20% large deletions, with the remaining defects involving small alterations. There is a compelling need for a rapid and reliable molecular diagnostic approach for patients and families impacted by these conditions. In addition to testing suspected affected males, carrier screening of females in Menkes/OHS families and prenatal evaluation of at-risk pregnancies will be enhanced by the wider availability of robust mutation analysis for this large (23-exon) locus. Here we describe a stepwise approach to mutation screening for these disorders that successfully identified molecular alterations in over 95% of our patient population (n = 49). This genomic DNA-based technique employs multiplex PCR, heteroduplex analysis, and direct sequencing, in a serial fashion. This approach should find application in molecular diagnostic laboratories in the United States and other countries. Currently, only a single European center provides commercial testing for unknown mutations in Menkes/OHS patients, even though these disorders occur worldwide.
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PMID:Rapid and robust screening of the Menkes disease/occipital horn syndrome gene. 1253 48

Menkes disease (MD) is an X-linked multisystemic lethal disorder of copper metabolism dominated by neurodegenerative symptoms and connective tissue disturbances. MD results from mutations in the ATP7A gene, which encodes a membrane-bound copper transporting P-type ATPase located in the trans-Golgi network. In this study we describe screening of 383 unrelated patients affected with Menkes disease for gross deletions in ATP7A gene and finding of 57 patients. The present data suggests that gross deletion of ATP7A is the disease-causing mutation in 14.9% of the Menkes disease patients. Except for a few cases, gross gene deletions result in the classical form of Menkes disease with death in early childhood.
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PMID:Screening of 383 unrelated patients affected with Menkes disease and finding of 57 gross deletions in ATP7A. 1463 5

Wilson's disease and Menkes disease are inherited genetic disorders of copper metabolism. Each disease results from the absence or dysfunction of homologous copper-transporting ATPases present in the trans-Golgi network of cells. The Wilson ATPase transports copper into the hepatocyte secretory pathway for incorporation into ceruloplasmin and excretion into the bile. Thus, patients with Wilson's disease of the autosomal recessive trait present with signs and symptoms arising from impaired biliary copper excretion. The Menkes ATPase transports copper across the placenta, gastrointestinal tract, and blood-brain barrier, and the clinical features of this X-linked disease arise from copper deficiency. Despite striking differences in the clinical presentation of these two diseases, the respective ATPases function in precisely the same fashion within the cell. The different clinical features of each disease are the results of the tissue specific expression of these ATPases. In Wilson's disease, impaired biliary copper excretion leads to accumulation of this metal in the liver. When the capacity for hepatic storage is exceeded, cell death ensues, with copper release into the plasma resulting in hemolysis and deposition of copper in extrahepatic tissues. Affected patients usually present in the first or second decade of life with chronic hepatitis and cirrhosis or acute liver failure. Copper accumulation in the cornea results in Kayser-Fleischer rings. Neuropsychiatric symptoms are more common in adults and include dystonia, tremor, personality changes, and cognitive impairment as a results of copper accumulation in the basal ganglia and other brain regions. The diagnosis of Wilson's disease is confirmed by decreased serum ceruloplasmin, increased urinary copper, and elevated hepatic copper concentration. A large number of different mutations occur in the genes of patients with Wilson disease. Copper chelation drugs and zinc are effective in most cases. New treatment guidelines now advise physicians to start patients on zinc.
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PMID:[Genetic disorders of copper transport--diagnosis and new treatment for the patients of Wilson's disease]. 1577 21

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