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

Menkes' kinky hair disease can be successfully diagnosed both prenatally and postnatally using cultured skin fibroblasts derived from the patient or amniotic fluid cells from the affected fetus. Determination of intracellular copper concentration under normal and copper loaded conditions, as well as examination of the kinetics of copper retention may be necessary for diagnosis. At present, cell culture techniques have been proven to be applicable for postnatal diagnosis of Wilson's disease. More investigation is necessary to determine whether or not the present method for prenatal diagnosis of this disease is possible.
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PMID:Prenatal and postnatal diagnosis of diseases of copper metabolism. 675 25

Skin fibroblasts derived from patients with Wilson's disease have, under certain conditions, elevated concentrations of copper. However, the levels of intracellular copper varied from one experiment to another and the reason for this inconsistency has not yet been determined. 64Cu retention after 24 hours and its release in "chase" experiments was not abnormal, thus distinguishing these fibroblasts from Menkes' syndrome fibroblasts. The data provides evidence that the mutant gene responsible for Wilson's disease is expressed in fibroblasts under certain conditions.
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PMID:Abnormal copper metabolism in cultured fibroblasts from patients with Wilson's disease. 678 37

Copper is an essential dietary component, being the coenzyme of many enzymes with oxidase activity, e.g. ceruloplasmin, superoxide dismutase, monoamine oxidase, etc. The metabolism of copper is complex and imperfectly known. Active transport of copper through the intestinal epithelial cells involves metallothionein, a protein rich in sulfhydryl groups which also binds the copper in excess and probably prevents absorption in toxic amounts. In hepatocytes a metallothionein facilitates absorption by a similar mechanism and regulates copper distribution in the liver: incorporation in an apoceruloplasmin, storage and synthesis of copper-dependent enzymes. Metallothioneins and ceruloplasmin are essential to adequate copper homeostasis. Apart from genetic disorders, diseases involving copper usually result from hypercupraemia of varied origin. Wilson's disease and Menkes' disease, although clinically and pathogenetically different, are both marked by low ceruloplasmin and copper serum levels. The excessive liver retention of copper in Wilson's disease might be due to increased avidity of hepatic metallothioneins for copper and decreased biliary excretion through lysosomal dysfunction. Menkes' disease might be due to low avidity of intestinal and hepatic metallothioneins for copper. The basic biochemical defect responsible for these two hereditary conditions has not yet been fully elucidated.
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PMID:[Copper pathology (author's transl)]. 705 50

We report a detailed molecular analysis of the genomic structure of the Menkes disease gene (MNK; ATP7A). There are 23 exons in ATP7A covering a genomic region of approximately 140 kb. The size of the individual coding exons varies between 77 and 726 bp, and introns vary in size between 196 bp and approximately 60 kb. All of the splice sites obey the consensus GT-AG rule except the splice donor of intron 9, which is GC instead of GT. The exon following this rare splice donor variant is alternatively spliced. A PGAM pseudogene and two highly polymorphic CA repeats map to introns within the gene. The structure is very similar to that of the closely related Wilson disease gene (WND; ATP7B). From exon 5 (exon 3 in ATP7B) to the end, all of the splice sites occur at exactly the same nucleotide positions as in the WND gene, except for the boundary between exons 17 and 18 (exons 15 and 16 in ATP7B) and a single codon difference at the boundary between exons 4 and 5 of the MNK gene (exons 2 and 3 in ATP7B). In contrast to the WND gene, in which the first four of six metal binding domains are contained in 1 exon, metal binding domains 1 to 4 are divided over 3 exons. The striking similarity of the MNK and WND genes at the genomic level is consistent with their relatively recent divergence from a common ancestral gene.
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PMID:Molecular structure of the Menkes disease gene (ATP7A). 749 81

Wilson's disease is an autosomal recessive, inherited disorder of copper metabolism. In normal individuals, copper homeostasis is controlled by the balance between intestinal absorption of dietary copper and hepatic excretion of excess copper in bile. In Wilson's disease, hepatic copper is neither excreted in bile nor incorporated into ceruloplasmin and copper accumulates to toxic levels. The Wilson's disease gene (WND) encodes a putative copper-transporting protein that is expressed almost exclusively in the liver. The predicted structure of the protein product is that of a P-type ATPase with striking homology to bacterial copper transporters and the gene product of another inherited disorder of copper metabolism, Menkes' disease. A rat model of Wilson's disease has recently been identified. The Long-Evans Cinnamon (LEC) rat manifests elevated hepatic copper, defective incorporation of copper into ceruloplasmin, and reduced biliary excretion of copper. The rat homologue of the WND is abnormal in LEC rats. Clinical manifestations of Wilson's disease arise directly from copper-induced damage to hepatocytes (hepatic presentation) or indirectly after the release of copper from the liver with subsequent damage to the brain (neuropsychiatric presentation) and other organs. Genetic heterogeneity (different mutations in a single gene) may account for some of the variability in Wilsonian presentations. The diagnosis of Wilson's disease depends on the demonstration of disordered copper metabolism, manifested as elevated urinary and hepatic copper and low ceruloplasmin levels. However, none of the abnormal findings in Wilson's disease is pathognomonic. Genetic diagnosis, in the absence of family studies, is likely to be difficult since many different mutations result in the disease. Management of Wilson's disease involves decreasing excess levels of copper accumulated in the liver, brain, and other organs. Copper chelation therapy, to increase urinary excretion of copper, is the mainstay of treatment. In addition, oral zinc therapy may be useful at decreasing absorption of dietary copper and rendering tissue copper nontoxic, by increasing the formation of complexes with copper-binding proteins. Liver transplantation can be necessary for individuals with acute hepatic failure or complications of cirrhosis. Gene therapy may evolve in the future; however, medical management is effective in most patients.
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PMID:Wilson's disease: a new gene and an animal model for an old disease. 755 82

Studying metal ion resistance gives us important insights into environmental processes and provides an understanding of basic living processes. This review concentrates on bacterial efflux systems for inorganic metal cations and anions, which have generally been found as resistance systems from bacteria isolated from metal-polluted environments. The protein products of the genes involved are sometimes prototypes of new families of proteins or of important new branches of known families. Sometimes, a group of related proteins (and presumedly the underlying physiological function) has still to be defined. For example, the efflux of the inorganic metal anion arsenite is mediated by a membrane protein which functions alone in Gram-positive bacteria, but which requires an additional ATPase subunit in some Gram-negative bacteria. Resistance to Cd2+ and Zn2+ in Gram-positive bacteria is the result of a P-type efflux ATPase which is related to the copper transport P-type ATPases of bacteria and humans (defective in the human hereditary diseases Menkes' syndrome and Wilson's disease). In contrast, resistance to Zn2+, Ni2+, Co2+ and Cd2+ in Gram-negative bacteria is based on the action of proton-cation antiporters, members of a newly-recognized protein family that has been implicated in diverse functions such as metal resistance/nodulation of legumes/cell division (therefore, the family is called RND). Another new protein family, named CDF for 'cation diffusion facilitator' has as prototype the protein CzcD, which is a regulatory component of a cobalt-zinc-cadmium resistance determinant in the Gram-negative bacterium Alcaligenes eutrophus. A family for the ChrA chromate resistance system in Gram-negative bacteria has still to be defined.
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PMID:Ion efflux systems involved in bacterial metal resistances. 776 11

In this review we discuss four genetic disorders of copper metabolism. Wilson's disease and Indian childhood cirrhosis result from the toxic effects of copper accumulation in the liver. Menkes' disease and, most likely, occipital horn syndrome result from copper deficiency secondary to disturbances in copper transport. The recent cloning and sequencing of the genes defective in Wilson's disease and Menkes' disease provide the molecular basis for understanding the causes of the two major disorders of copper transport in humans. Mutations that result in Wilson's and Menkes' diseases were shown to disrupt the function of two related P-type copper transporting ATPases. Genetic analysis demonstrates that Wilson's disease and, probably, Menkes' disease are caused by a number of different mutations within a single gene (allelic heterogeneity), and that this occurrence likely explains the clinical heterogeneity of both diseases. The possibility that different mutations within the same gene account for the similar phenotypes of Wilson's disease and Indian childhood cirrhosis on the one hand and for Menkes' disease and occipital horn syndrome on the other are discussed.
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PMID:Genetic disorders of copper metabolism. 784 17

Little is known at the molecular level about the homeostatic control of heavy-metal concentrations in mammals. Recently, however, two human diseases that disrupt copper transport, Menkes disease and Wilson disease, were found to be caused by mutations in two closely related genes, MNK and WND, which encode proteins belonging to the P-type ATPase family of cation transporters. The MNK and WND proteins are unique in having at their amino termini six copies of a sequence that is remarkably similar to sequences previously found in bacterial heavy-metal-resistance proteins and in a P-type ATPase that appears to form part of a bacterial copper homeostatic system. These two human ATPases are the first putative heavy-metal transporters to be discovered in eukaryotes.
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PMID:Wilson disease and Menkes disease: new handles on heavy-metal transport. 809 5

A digital computer simulation of copper metabolism was used to simulate human copper metabolism. The simulation agrees well with the normal data extant. Wilson's disease (hepatolenticular degeneration) and Menkes' disease (steely-hair syndrome) were simulated. Simulation of the unavailability of accumulated liver copper simulated Wilson's disease if it was assumed that the increased urinary excretion was due to induction of an enzymic mechanism for enhanced excretion. This would be consistent with the genetic defect causing only the sequestering of unavailable copper in the liver. Other genetic defects need not be present. Menkes' disease is also a genetic disease affecting the newborn. It was simulated successfully as a defect in absorption of copper from the gastrointestinal tract.
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PMID:Computer simulation of normal and pathological copper metabolism in man. 846 38

We have described herein various skin diseases which are caused by essential trace element deposition, deficiency, allergy, etc. Pigmentation of hemochromatosis and hemosiderosis are recognized by hemosiderin deposition in the dermis. Acrodermatitis enteropathica is caused by a deficiency of Zn and is classified as either a hereditary type or as an acquired type. The former is autosomal recessive and the latter is caused by a low intake of Zn. Wilson's disease and Menkes' kinky hair syndrome, which are caused by abnormal Cu metabolism, elicit hyperpigmentation and morphological changes of the hair, respectively. It appears that kinky hair formation results from low activity of sulfhydryl oxidase which is a Cu enzyme. Bowen disease, which is carcinoma in situ, is caused by As toxicosis. Some cases, such as palmo-plantar-pustulosis, lichen planus and oral lichen planus are caused by allergies to metals used in dental surgery, especially Ni, Co, Cr and Sn.
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PMID:[Essential trace element and skin diseases]. 858 13


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