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' steely-hair disease is characterized by abnormal copper metabolism accompanying progressive cerebral degeneration. Cerebral lipids and proteins of an infantile male patient with Menkes' disease were analyzed. The major lipid components in myelin, which included free cholesterol, phospholipids, galactosylceramide, sulfatide, and GM4 ganglioside were markedly decreased, indicating that the myelin was severely damaged by the defective copper metabolism. The degeneration of the myelin was also indicated by decrease in myelin basic protein and proteolipid protein, whereas gliosis in the white matter was biochemically confirmed by prominent increase in glial fibrillary acidic protein. Fatty acid analyses of phospholipids in the white matter revealed that the unsaturated fatty acids were severely decreased in phosphatidylethanolamine, phosphatidylcholine, and phosphatidylserine, and that the long chain fatty acids were also decreased in sphingomyelin. As both the desaturation of fatty acids in glycerophospholipids and the elongation of fatty acids in sphingomyelin are in general thought as markers for myelination, the results suggest that the progressive cerebral degeneration in the disease is due to dysmyelination rather than demyelination. The dysmyelination seemed to be supported by the fact that cholesterol ester which is thought as a marker for demyelination, showed no increase in the brain.
Jpn J Exp Med 1986 Dec
PMID:Cerebral lipid and protein abnormalities in Menkes' steely-hair disease. 359 92

Hair and skin pigmentation changes are described in males with Menkes disease from birth to 12 years of age and in 28 obligate carrier or at-risk females. Pili torti were observed in all affected males and in 43% of the females studied. The presence of pili torti may be considered a reliable diagnostic feature of the carrier state. Suggestions are given for evaluation of the hair in individuals in Menkes pedigrees.
Clin Genet 1985 Dec
PMID:Ectodermal manifestations in Menkes disease. 407 64

Cultured fibroblasts of 13 patients with the Menkes syndrome and two with a new subtype (type IX) of the Ehlers-Danlos syndrome (E-D IX patients) showed many very similar abnormalities in their copper and collagen metabolism. Both cell types had markedly increased copper concentrations and 64Cu incorporation, and this cation accumulated in metallothionein or a metallothionein-like protein, as previously established for Menkes cells. Histochemical staining indicated that copper was distributed diffusely throughout the cytoplasm in both cell types, this location being consistent with the accumulation in metallothionein. Both fibroblast types also had markedly low lysyl oxidase activity and distinctly increased extractability of newly synthesized collagen, whereas no abnormalities were present in cell viability, duplication rate, prolyl 4-hydroxylase activity, or collagen synthesis rate. A high negative correlation (P less than 0.001) was found in the pooled group of Menkes and E-D IX cells between cellular copper concentration (r = 0.804) or 64Cu incorporation (r = 0.863) and the logarithm of lysyl oxidase activity. There was also a high positive correlation (P less than 0.001) between cellular copper concentration and incorporation (r = 0.869). One of the two E-D IX patients was also shown to have similar changes in lysyl oxidase activity and collagen extractability in the skin biopsy specimen, suggesting that the abnormalities observed in cultured cells are similar to those present in vivo. The only distinct abnormality found in the cells of the parents of the E-D IX patients was an increased 64Cu incorporation in those of the mother, this finding being consistent with X-linked inheritance of the disorder.
Biochemistry 1983 Dec 20
PMID:Alterations in copper and collagen metabolism in the Menkes syndrome and a new subtype of the Ehlers-Danlos syndrome. 614 Sep 52

A patient with Menkes' syndrome is reported. This patient has survived to the age of six years without mental retardation, and shows previously unreported computed tomographic (CT) findings of tortuous vessels and unusual osseous manifestations of undertubulation of long bones and posterior vertebral body scalloping.
J Can Assoc Radiol 1984 Dec
PMID:CT manifestations of Menkes' kinky hair syndrome (trichopoliodystrophy). 652 54

Menkes' kinky hair syndrome is a lethal X-linked disorder marked by tissue-specific increases in copper content. An animal model of kinky hair syndrome is provided by mice mutant at the X-linked mottled locus. The basic defect is unknown. In order to discriminate among potential etiologies, we asked whether the expression of the mottled mutation causes abnormalities in the metabolism of trace metals other than copper in hemizygous mottled (blotchy) cultured skin fibroblasts, and whether we can differentiate mutant and normal cells according to their response to metal inducers of metallothionein. Blotchy fibroblasts accumulated up to 12 times more 64Cu than control (littermate) cells, over time and over a range of 64Cu concentrations. A saturable high affinity component to 64Cu accumulation over a fixed time interval was revealed in these studies. While 64Cu uptake kinetics were indistinguishable in mutant and control cells, the patterns of 64Cu exit differed. In both cell types, the rate of release of a rapidly exchangeable fraction of newly acquired 64Cu was similar. However, in mutant cells, a larger fraction of recently accumulated 64Cu is retained. In contrast to the results for 64Cu, accumulation and exit of 65Zn and 109Cd were not distinguishable in mutants and controls. With exposure to either a strong (cadmium) or weaker (zinc) inducer of metallothionein, 64Cu accumulation was increased in normal cells, while there was no change from the already elevated level of 64Cu accumulation in blotchy cells.(ABSTRACT TRUNCATED AT 250 WORDS)
Pediatr Res 1984 Dec
PMID:Trace metal metabolism in cultured skin fibroblasts of the mottled mouse: response to metallothionein inducers. 654 92

The mottled (Mo) mouse is an animal model of the human congenital copper (Cu) deficiency disorder, Menkes' kinky hair syndrome. Intraperitoneal Cu chloride injections have been shown to produce clinical and morphological improvements in this mutant mouse. Cu injections (10 micrograms/g) on postnatal days 7 and 10 are shown to increase endogenous activity of the Cu-dependent enzyme dopamine-beta-hydroxylase in the brains of Mo mice. The present study provides insight into the long-term neurochemical changes resulting from a possible treatment regimen for Menkes' kinky hair syndrome.
J Neurochem 1983 Dec
PMID:Congenital copper deficiency: copper therapy and dopamine-beta-hydroxylase activity in the mottled (brindled) mouse. 664 5

The neuropathological findings in two siblings with Menkes' disease were compared with representative material obtained from lambs suffering from swayback (enzootic ataxia). The aim of the study was to demonstrate the similarity of lesions in a genetic and a nutritional form of copper deficiency in support of the view that all lesions in Menkes' disease could be ascribed to simple hypocupraemia. All lesions of Menkes' disease were shown to have their counterpart in swayback, with exception of the abnormal arborisations of the Purkinje cell dendrites. These have often been interpreted as malformations and cited in evidence of the prenatal origin of the cerebral lesions. They are, however, non-specific and similar lesions have been reported in conditions arising in later life. While there is abundant collateral evidence of disturbed copper metabolism in utero, the problem of the prenatal versus postnatal origin of cerebral damage remains unresolved.
J Neurol Sci 1983 Dec
PMID:Menkes' disease and swayback. A comparative study of two copper deficiency syndromes. 666 80

Menkes disease and Wilson disease are human disorders of copper metabolism. It has recently been shown that both are due to mutations in P-type ATPase copper transport molecules. Related heavy metal transporting ATPases have been described in several strains of bacteria. In an effort to isolate other mammalian metal transporters, we screened a human small intestine library with probes homologous to conserved sequences in the known proteins. Two novel cDNAs were isolated, which encode new members of this family. Surprisingly, they were both of bacterial origin, most likely derived from E. coli sequences transduced during library construction.
Biochem Biophys Res Commun 1994 Dec 30
PMID:Novel bacterial P-type ATPases with histidine-rich heavy-metal-associated sequences. 781 Dec 48

The Menkes or kinky hair disease is a rare, sex-linked systemic disorder of the copper metabolism. It is lethal in the first three years due to cerebral and cerebellar degeneration. Apropos of their case the authors summarise the knowledge on the diagnosis, pathogenesis and therapy.
Orv Hetil 1994 Dec 25
PMID:[Menkes disease]. 784 59

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.
Curr Opin Pediatr 1994 Dec
PMID:Genetic disorders of copper metabolism. 784 17


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