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Query: UMLS:C0022716 (
Menkes
)
1,057
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To elucidate the roles played by copper-containing enzymes in the brain degeneration associated with
Menkes disease
, the brains of brindled mouse hemizygotes (BMs) were studied histochemically and biochemically before and after copper therapy. Light and electron microscopic histochemistry revealed that, while neuronal mitochondria in BM brains demonstrate only a weak diaminobenzidine reaction for cytochrome oxidase, these exhibit strong activity after therapy and in control mice. Biochemical assays of enzyme activity revealed only 30% of the normal level before a single subcutaneous application of 50 micrograms of CuCl2, whereas neuronal mitochondria of BMs surviving 8 months after the copper therapy displayed essentially no difference from the controls. Similar results were also gained for superoxide dismutase activity, although the reduction was less marked. The present findings provide direct support for decreased activities of copper-containing enzymes being responsible for the mitochondrial abnormalities and brain degeneration associated with
Menkes disease
.
J Intellect Disabil Res 1993
Dec
PMID:Complete recovery of cytochrome oxidase and superoxide dismutase activities in the brain of brindled mice receiving copper therapy. 812 2
There has been remarkable progress in the identification of mutations in genes that cause inherited neurological disorders. Abnormalities in the genes for Huntington disease, neurofibromatosis types 1 and 2, one form of familial amyotrophic lateral sclerosis, fragile X syndrome, myotonic dystrophy, Kennedy syndrome,
Menkes disease
, and several forms of retinitis pigmentosa have been elucidated. Rare disorders of neuronal migration such as Kallmann syndrome, Miller-Dieker syndrome, and Norrie disease have been shown to be due to specific gene defects. Several muscle disorders characterized by abnormal membrane excitability have been defined as mutations of the muscle sodium or chloride channels. These advances provide opportunity for accurate molecular diagnosis of at-risk individuals and are the harbinger of new approaches to therapy of these diseases.
Ann Neurol 1993
Dec
PMID:Molecular genetics in neurology. 791 6
Wilson disease (WD) is an autosomal recessive disorder of copper transport, resulting in copper accumulation and toxicity to the liver and brain. The gene (WD) has been mapped to chromosome 13 q14.3. On yeast artificial chromosomes from this region we have identified a sequence, similar to that coding for the proposed copper binding regions of the putative ATPase gene (
MNK
) defective in
Menkes disease
. We show that this sequence forms part of a P-type ATPase gene (referred to here as Wc1) that is very similar to
MNK
, with six putative metal binding regions similar to those found in prokaryotic heavy metal transporters. The gene, expressed in liver and kidney, lies within a 300 kb region likely to include the WD locus. Two WD patients were found to be homozygous for a seven base deletion within the coding region of Wc1. Wc1 is proposed as the gene for WD.
Nat Genet 1993
Dec
PMID:The Wilson disease gene is a putative copper transporting P-type ATPase similar to the Menkes gene. 829 39
Wilson disease (WD) is an autosomal recessive disorder characterized by the toxic accumulation of copper in a number of organs, particularly the liver and brain. As shown in the accompanying paper, linkage disequilibrium & haplotype analysis confirmed the disease locus to a single marker interval at 13q14.3. Here we describe a partial cDNA clone (pWD) which maps to this region and shows a particular 76% amino acid homology to the
Menkes disease
gene, Mc1. The predicted functional properties of the pWD gene together with its strong homology to Mc1, genetic mapping data and identification of four independent disease-specific mutations, provide convincing evidence that pWD is the Wilson disease gene.
Nat Genet 1993
Dec
PMID:The Wilson disease gene is a copper transporting ATPase with homology to the Menkes disease gene. 829 41
To correlate genotype with response to early copper histidine therapy in
Menkes disease
, an X-linked disorder of copper transport, we performed mutational analysis in 2 related males who began treatment at the age of 10 days and prenatally at 32 weeks' gestation, respectively. A G to T transversion at the -1 exonic position of a splice donor site was identified, predicting a glutamine to histidine substitution at codon 724 of the
Menkes
copper-transporting ATPase gene. The Q724H mutation disrupts proper splicing and generates five mutant transcripts that skip from one to four exons. None of these transcripts is predicted to encode a functional copper transport protein. Copper histidine treatment normalized circulating copper and ceruloplasmin levels but did not improve the baseline deficiency of dopamine-beta-hydroxylase, a copper-dependent enzyme. At the age of 36 months, the first patient was living and had neurodevelopmental abilities ranging from 10 to 15 months. The second patient also showed delayed neurodevelopment and died of pulmonary complications at the age of 5 1/2 months. We conclude that early copper histidine therapy does not normalize neurological outcome in patients with the Q724H splicing mutation, and suggest that preservation of some residual
Menkes
ATPase activity may be a general prerequisite for significant clinical efficacy from such treatment.
Ann Neurol 1995
Dec
PMID:Early copper therapy in classic Menkes disease patients with a novel splicing mutation. 900 80
We determined the concentrations of copper, the activities of ceruloplasmin and peptidylglycine alpha-amidating monooxygenase (PAM), and the stimulation index of PAM by the in vitro addition of copper in plasma samples obtained from three male patients with occipital horns and a milder
Menkes disease
phenotype, having severe copper deficiency due to the defect in copper transport. We found a decreased plasma ceruloplasmin activity and an increased copper stimulation index of plasma PAM in these patients compared with healthy control subjects. The combination of these two determinations may provide a means for the assessment of copper nutriture in humans using blood samples obtained in a single microhematocrit tube. Further investigation is warranted to evaluate whether these noninvasive measurements can be used for the diagnosis of mild copper deficiency in humans with sufficient specificity and sensitivity.
Pediatr Res 1997
Dec
PMID:In vitro copper stimulation of plasma peptidylglycine alpha-amidating monooxygenase in Menkes disease variant with occipital horns. 939 70
The human X-linked recessive disorder of copper metabolism,
Menkes disease
, is caused by a defect in the
MNK
( ATP7A ) gene which encodes a transmembrane copper-transporting P-type ATPase (
MNK
).
MNK
is an important component of the mammalian copper transport pathway, and previous studies in cultured cells have localized
MNK
to the final compartment of the Golgi apparatus, the trans -Golgi network (TGN). At this location,
MNK
is predicted to supply copper to copper-dependent enzymes as they migrate through the secretory pathway. However, under conditions of elevated extracellular copper, the
MNK
protein undergoes a rapid relocalization to the plasma membrane where it functions in the efflux of copper from cells. In this study, three di-leucine motifs and a cluster of four acidic amino acids within the C-terminal region of
MNK
were investigated as candidate signals necessary for steady-state TGN localization. In vitro mutagenesis of the human
MNK
cDNA and immunofluorescence detection of mutant forms of
MNK
expressed in cultured cells demonstrated that the di-leucine, L1487L1488, was essential for localization of
MNK
within the TGN, but not for copper efflux. We suggest that this di-leucine motif is a putative endocytic targeting motif necessary for the retrieval of
MNK
from the plasma membrane to the TGN. Our data, along with the recent demonstration that the third transmembrane region of
MNK
functions as a TGN targeting signal, suggests that
MNK
localization to the TGN may be a two-step process involving TGN retention via the transmembrane region, and recycling to this compartment from the plasma membrane via the L1487L1488 motif.
Hum Mol Genet 1998
Dec
PMID:A C-terminal di-leucine is required for localization of the Menkes protein in the trans-Golgi network. 981 23
A male neonate presented with an acute onset of severe intra-abdominal bleeding, haemorrhagic shock and multiple fractures leading to death on d 27.
Menkes
' disease was diagnosed at autopsy and confirmed by copper accumulation studies on cultured fibroblasts. Such an early onset of fatal complications in this condition has not been previously reported. New insights into the pathogenesis of
Menkes
' disease provided by DNA mutation analysis and difficulties in neonatal diagnosis are discussed.
Menkes
' disease should be considered in male infants with pathological fractures and other signs of connective tissue disease, even in the neonatal period.
Acta Paediatr 1998
Dec
PMID:Lethal neonatal Menkes' disease with severe vasculopathy and fractures. 989 33
The
Menkes
copper ATPase (MNK) is a copper efflux ATPase that is involved in copper homeostasis. Little is known about the intracellular localization and cell-specific function of the MNK in human tissues. To investigate a possible role for this protein in lactation, we measured its expression in sections of tissue from nonlactating and lactating human breast. Western blot analysis showed that MNK expression was greater in lactating tissue than in nonlactating tissue. By confocal immunofluorescence, the MNK was detected in luminal epithelial cells of the alveoli and ducts but not in myoepithelial cells. In the nonlactating breast epithelial cells, the MNK had a predominantly perinuclear distribution. In lactating breast tissue, the distribution of the MNK was markedly altered. Lactating epithelial cells showed a granular, diffuse pattern, which extended beyond the perinuclear region of the cell. This pattern was similar to that observed in a previous study in which cultured CHO cells were exposed to high copper concentrations. Our results suggest that relocalization of the MNK is a physiological process, which may be mediated by copper levels in the breast or by hormones and other events taking place during lactation. A vesicular pathway for copper from the Golgi into milk, similar to that of calcium, is proposed.(J Histochem Cytochem 47:1553-1561, 1999)
J Histochem Cytochem 1999
Dec
PMID:Expression of menkes copper-transporting ATPase, MNK, in the lactating human breast: possible role in copper transport into milk. 1056 39
Menkes disease
is a rare X-linked recessive disorder of copper metabolism, characterised by progressive neurological degeneration, abnormal hair and connective tissue manifestations. We report on a girl with classic
Menkes disease
, carrying a de novo balanced translocation 46,X,t(X;13)(q13.3; q14.3). The translocation breakpoints at Xq13.3 and 13q14.3 coincide with the
Menkes disease
and Wilson disease loci, respectively.
Am J Med Genet 1999
Dec
03
PMID:Clinical expression of Menkes disease in a girl with X;13 translocation. 1058 44
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