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)

The copper content of various organs of ;brindled' female heterozygotes and male mice affected by this X-linked mutation are documented at the last day of intrauterine development, at 1 day after birth and at 11 days of age. The findings indicate defective placental transfer of copper in utero, and an even more marked defect in intestinal absorption of copper after birth. In addition there is an abnormal distribution of copper among the tissues of the body once it is absorbed. The mutation produces abnormal accumulation of copper in kidney, in gut mucosa and in testis, whereas liver, brain, plasma and most other organs show diminished copper concentrations. The intestinal malabsorption of copper is accompanied by accumulation of abnormal amounts of the metal in the intestinal-mucosa cells. Copper concentrations in both mucosa and luminal contents rise progressively from duodenum to ileum. Defective upper-intestinal absorption, consequent progressive increase in luminal copper concentration and pinocytosis in the ileum would seem to explain the findings. Radioisotopic studies eliminated the possibility of excessive excretion of copper in bile or across the intestinal mucosa. Detailed comparison with findings in humans with Menkes' syndrome is difficult because of the different stages of development at which the studies have been performed, but the results seem in general to conform very satisfactorily. Those differences seen are probably explicable by known species differences. All the findings are in accord with a hypothesis that the basic defect involves accumulation and retention of copper in the cells of affected tissues such as kidney, gut mucosa and placenta.
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PMID:Copper metabolism in mottled mouse mutants: copper concentrations in tissues during development. 57 17

The kinky hair syndrome (KHS) is an X-linked defect of copper transport in man. An animal model is available in mutants at the X-linked mottled locus in mice. The defect does not involve the uptake of copper from the intestinal lumen but rather the transport of copper from intestinal cells. The reduced activity of several copper-dependent enzymes and the lower copper content of serum, liver, and probably brain account for the manifestations of the disorder which are evident at, or shortly after, birth. Intrauterine involvement is likely but prenatal diagnosis is not yet possible. Although the delivery of iron to the erythropoietic system, and its utilization, are impaired in nutritionally induced copper deficiency, as is neutrophil production, these processes appear normal in KHS. thus, adequate copper to carry them out is available in KHS. While there may be more than one transport system for copper (only one of which is affected in KHS) it is also possible that the hematopoietic tissue in KHS, like the intestinal cells, has abnormally high afficity for copper. The presence of multiple alleles at the KHS locus (and at other genetic loci) in man, which cause different degrees of reduction in copper transport, could account for variations in the susceptibility to copper deficiency observed in infant populations.
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PMID:Menkes' kinky hair syndrome: a genetic disease involving copper. 82 88

Cultured skin fibroblasts from patients with Menkes disease, an X-linked disorder involving a defect in copper metabolism, were analyzed for copper concentration by means of atomic absorption spectrophotometry. These cultures consistently exhibited elevated copper concentrations (mean = 335.5 ng of copper per mg of protein) when compared to control fibroblast cultures (mean = 59.2 ng of copper per mg of protein). External factors that could influence the copper content of cultures were found not to affect the differences in copper concentration between control and Menkes cells. Furthermore, Menkes cells could be differentiated from cultured fibroblasts of controls, of presumed heterozygotes, and of Wilson's disease patients by copper concentration. These observations led to the conclusion that the increased copper content of cultured Menkes cells was characteristic of Menkes disease, resulting from the expression of the genetic abnormality. This provides a genetic marker, a defect in metal metabolism demonstrated in human fibroblasts, that should prove valuable in both the diagnosis of Menkes disease and in the study of the fundamental defect of this genetic disorder.
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PMID:Menkes disease: a biochemical abnormality in cultured human fibroblasts. 106 Nov 60

Menkes disease is an X-linked, recessive disturbance of copper metabolism associated with a progressive clinical course and abnormal hair. The disease is dominated by neurological symptoms combined with connective tissue manifestations, most of which can be explained by the lack of important copper enzymes. Despite excessive accumulation of the metal in various tissues, a functional copper deficiency is evident, probably caused by a defective intracellular copper transport protein of unknown nature. The molecular basis of the copper disturbance has proven difficult to define and will most likely have to await cloning of the gene. The chromosomal region of interest has now been narrowed down to a sub-band on the long arm of the chromosome (Xq13.3), and positional cloning is in progress in a number of laboratories including our own. Identification of the Menkes gene will be of importance for our understanding of the cellular handling of copper and other trace elements.
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PMID:Menkes disease: an X-linked neurological disorder of the copper metabolism. 134 68

Linkage analyses were performed in 11 families with X-linked Menkes disease. In each family more than one affected patient had been diagnosed. Forty informative meioses were tested using 11 polymorphic DNA markers. From two-point linkage analyses high lod scores are seen for DXS146 (pTAK-8; maximal lod score 3.16 at recombination fraction [theta] = .0), for DXS1 (p-8; maximal lod score 3.44 at theta = .0), for PGK1 (maximal lod score 2.48 at theta = .0), and for DXS3 (p19-2; maximal lod score 2.90 at theta = .0). This indicates linkage to the pericentromeric region. Multilocus linkage analyses of the same data revealed a peak for the location score between DXS146(pTAK-8) and DXYS1X(pDP34). The most likely location is between DXS159 (cpX289) and DXYS1X(pDP34). Odds for this location relative to the second-best-supported region, between DXS146(pTAK-8) and DXS159 (cpX289), are better than 74:1. Visualization of individual recombinant X chromosomes in two of the Menkes families showed the Menkes locus to be situated between DXS159(cpX289) and DXS94(pXG-12). Combination of the present results with the reported absence of Menkes symptoms in male patients with deletions in Xq21 leads to the conclusion that the Menkes locus is proximal to DXSY1X(pDP34) and located in the region Xq12 to Xq13.3.
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PMID:Multipoint linkage analysis in Menkes disease. 157 Aug 30

Increasing loss of vision caused by peculiar macroscopic and functional retinal changes was the first ophthalmologic manifestation of Wilson's disease in a 22-year-old patient. Neither retinal changes nor great visual impairment has been described thus far in the literature concerning this disease. Likely correlations are discussed with Menkes syndrome, an X-linked inborn error of copper metabolism with onset in early childhood.
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PMID:[Retinal changes in Wilson's disease]. 188 68

There are several known examples of mutations which influence copper homeostasis in humans and animals. Pleiotropic effects are observed when the mutant gene disturbs copper flux. In some cases, the mutation alters the level of a specific copper ligand (enzyme) and the clinical consequences are unique. The two most widely studied genetic maladies in humans are Menkes' and Wilson's diseases. Menkes' disease is an X-linked fatal disorder in which copper accumulates in some organs (intestine and kidney) and is low in others (liver and brain). Wilson's disease is an autosomal recessive disorder in which copper accumulates, if untreated, in liver and subsequently in brain and kidney. Pathophysiological consequences of copper deficiency and toxicity characterize these two disorders. Specific mutations of human cuproenzymes include overproduction of copper-zinc superoxide dismutase in Down's syndrome, absence of tyrosinase in albinism, hereditary mitochondrial myopathy due to reduction in cytochrome c oxidase, and altered lysyl oxidase in X-linked forms of cutis laxa and Ehlers-Danlos syndrome. Mutations altering copper metabolism are also known in animals. Several murine mutants have been studied. The most extensively investigated mutants are the mottled mice, in particular brindled mice, which have a mutation analogous to that of Menkes' disease. Another recently described murine mutation is toxic milk (tx) an autosomal recessive disorder that is characterized by copper accumulation in liver. Two other mutants, crinkled and quaking, were once thought to exhibit abnormal copper metabolism. Recent data has not confirmed this. A mutation in Bedlington terriers has been described which is very similar to Wilson's disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic diseases of copper metabolism. 351 56

Menkes kinky hair syndrome is an X-linked neurodegenerative disorder, causing tissue-specific increases in copper and metallothionein content. A mouse model is provided by hemizygotes for mutant alleles at the X-linked mottled locus. Herein we test the possibility that the primary defect in both species is in metallothionein gene regulation. We show that metallothionein-I messenger RNA (mRNA) (mouse) and metallothionein-II mRNA (human) are elevated in mutant fibroblasts. However, comparable dose-response curves in mutant and control cells are generated when mouse metallothionein-I mRNA concentrations are measured in cells exposed to varying concentrations of cadmium or copper (metallothionein inducers). Furthermore, when mutant and control cells are grown to achieve overlapping intracellular copper concentrations in the two cell types, metallothionein-I (mouse) and metallothionein-II (human) mRNA levels are proportional to the intracellular copper concentrations. Finally, in paired determinations in blotchy hemizygote and littermate kidneys containing comparable copper levels, metallothionein-I mRNA contents are very similar. The observations suggest that elevated intracellular copper in these mutants induces metallothionein synthesis by normal regulatory mechanisms.
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PMID:Metallothionein messenger RNA regulation in the mottled mouse and Menkes kinky hair syndrome. 357 89

Menkes' kinky-hair syndrome is an X-linked recessive neurodegenerative and connective-tissue disorder, with decreased serum copper and ceruloplasmin-copper oxidase concentrations and tissue-specific increases in copper content. Clinical manifestations can be related to relative copper deficiency and reduced activity of cuproenzymes in multiple organs. An animal model is provided by mice hemizygous for mutant alleles, such as the blotchy allele, at the X-linked mottled locus. This locus may be homologous in mouse and man. The basic defect is unknown but has been thought to reside in the regulation of the function or synthesis of metallothioneins. In the blotchy mouse and in cultured skin fibroblasts derived therefrom, we showed that the mutation specifically affects the metabolism of copper and not other trace metals. Excessive accumulation and abnormal (reduced) exit kinetics were demonstrated for copper but not for the related trace metals cadmium and zinc. While metallothionein-I messenger RNA (mRNA) concentrations were elevated in blotchy fibroblasts, the elevations in metallothionein-I mRNA in response to metallothionein inducers (cadmium, copper) were similar in blotchy and control cells. Further, metallothionein-I mRNA levels were indistinguishable in mutant and control fibroblasts containing equivalent intracellular copper concentrations. Finally, metallothionein-I mRNA content was not elevated in blotchy kidneys at early developmental stages, before storage of excessive copper. The aggregate data suggest that the basic defect in the blotchy mouse--and, by analogy, in Menkes' syndrome--does not reside in defective modulation of metallothionein function and does not cause abnormal regulation of metallothionein synthesis.
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PMID:Regulation of copper metabolism in the mottled mouse. 367 14

We report on a girl with Menkes syndrome (M.S.) and X-2 reciprocal translocation. We conclude that the probable locus for M.S. gene is at band Xq13. This case and other previous case reports of X-linked disorders in females suggest that chromosome analysis is indicated in all females who present with manifestations of a known X-linked lethal condition in order to detect a possible associated balanced X-autosome translocation.
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PMID:Menkes syndrome in a girl with X-autosome translocation. 381


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