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
Query: UMLS:C0022716 (
Menkes
)
1,057
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Metallothionein
biosynthesis is not induced by extracellular copper in
Menkes
Kinky hair disease
(MKHD) or in normal cultured fibroblasts under the conditions of these experiments. In the presence of copper, MKHD fibroblasts also incorporated less cysteine than did normal fibroblasts. Extracellular cadmium greatly enhanced the uptake of cysteine in both normal and MKHD cultures. By the technique of polyacrylamide gel electrophoresis, it was demonstrated that metallothionein is induced by cadmium in normal and MKHD-cultured fibroblasts.
...
PMID:Inducibility of metallothionein biosynthesis in cultured normal and Menkes kinky hair disease fibroblasts: effects of copper and cadmium. 47 76
Menkes
' disease is an inherited disturbance of copper metabolism. Addition of copper to the medium of cultured fibroblasts and lymphoblasts from patients with
Menkes
' disease results in an increased induction of metallothionein. We investigated the metallothionein induction in response to copper and zinc in muscle cells (myoblasts and myotubes).
Metallothionein
synthesis was analyzed by gel electrophoresis of labeled proteins and metallothionein synthesis in muscle cells was compared with the synthesis in fibroblasts. The induction by copper was higher both in muscle cells and in fibroblasts from the
Menkes
' patient compared to the control cells. Hybrid myotubes obtained by fusion of control myoblasts and
Menkes
' myoblasts render a system in which complementation can be studied.
Metallothionein
synthesis in hybrid myotubes occurred at a level intermediate between the synthesis in
Menkes
' and control myotubes. The abnormal accumulation of copper-induced metallothionein was only partially corrected by fusion with normal cells.
Metallothionein
induction by zinc was similar in
Menkes
' and control fibroblasts. Combination of copper and zinc yielded no differences in additional metallothionein synthesis for
Menkes
' cells and control fibroblasts. Therefore, metallothionein induction in
Menkes
' disease can primarily be accounted for by copper rather than by zinc.
...
PMID:Metallothionein in Menkes' disease: induction in cultured muscle cells. 208 40
A study was carried out on the uptake of copper, zinc, or cadmium ions and their induction of metallothionein synthesis in
Menkes
' and normal lymphoblastoid cells. The main difference between
Menkes
' and normal cells in the uptake of these metal ions was an increased uptake of copper ions in
Menkes
' cells at a low concentration of CuCl2 (2.1 microM). The CuCl2 concentration necessary to induce metallothionein synthesis in
Menkes
' cells was 50 microM, whereas that in normal cells was about 200 microM. The levels of zinc or cadmium ions needed to induce metallothionein in
Menkes
' cells were similar to those in normal cells. At least four isomers of metallothionein were induced by copper, zinc, and cadmium ions in both types of cells.
Metallothionein
synthesis in
Menkes
' and normal cells was induced when the amounts of intracellular copper reached a threshold level of approximately 0.2 nmol/10(6) cells, and the rate of metallothionein synthesis in these cells was increased as a function of the amounts of intracellular copper (0.2-1.7 nmol/10(6) cells). These results indicate that the induction of metallothionein synthesis in lymphoblastoid cells is controlled by the level of intracellular copper, suggesting that the major defect in
Menkes
' cells is not due to the abnormal regulation of metallothionein synthesis but to an alteration of the copper metabolism in cells by which the levels of intracellular copper become larger than those in normal cells and just lower than the threshold level for induction of metallothionein synthesis.
...
PMID:Induction of metallothionein synthesis in Menkes' and normal lymphoblastoid cells is controlled by the level of intracellular copper. 349 30
Metallothionein
is a cysteine-rich, low molecular weight protein that binds zinc, copper and cadmium. It is inducible in liver, kidney and intestine by glucocorticoids, changes in the dietary zinc supply, acute administration of various metals, food restriction, infection, stress and endotoxin treatment. Regulation of synthesis involves altered gene expression. The protein is fairly rapidly degraded when zinc is the primary metal species bound, but the degradation rate is diminished when cadmium or copper are bound as well. The net result of metallothionein production seems to be accumulation of bound metal and/or intracellular metal redistribution. The accumulation of copper in various tissues of individuals with
Menkes
' and Wilson's diseases may be related to altered metallothionein turnover. The physiological function is not clear, but the response of metallothionein to hormonal stimuli is suggestive of an important role in cellular metabolism.
...
PMID:Metallothionein--aspects related to copper and zinc metabolism. 641 69
Menkes
' disease is a recessive X-linked disturbance of copper metabolism, resulting in accumulation of copper in several extra-hepatic tissues including the placenta.
Metallothionein
(MT) is a low-molecular weight protein with a high affinity for group II metal ions, such as copper. Its synthesis is induced by the presence of the ions. The aim of this study was to investigate the pattern of the MT immunoreactivity in placental tissue obtained from women at-risk of
Menkes
' disease in order to examine whether the MT occurrence and distribution may reflect the copper content. Placental tissue from six women with a family history of
Menkes
' disease, from 4 women without a family history, and from 2 hydatiform moles was studied. Positive MT immunostaining was found to be independent of the length of fixation, whether the tissue samples were fixed in 4% buffered formaldehyde or Bouin's fixative. The avidin-biotin-complex (ABC)-technique was used. The copper content was measured by neutron activation analysis (NAA). In all placental tissue sections positive MT immunostaining appeared only in the trophoblast and only in proliferating cells. In placental tissue sections obtained from foetuses and children affected by
Menkes
' disease an additional MT immunostaining appeared in the Hofbauer cells of the chorionic villi. This staining was associated with an increased content of copper as measured by NAA. We conclude that the immunohistochemical demonstration of MT reflects the copper content and may be useful in pre- and postnatal diagnosis of
Menkes
' disease.
...
PMID:Metallothionein expression in placental tissue in Menkes' disease. An immunohistochemical study. 757 74
Fulfilling a bevy of biological roles, copper is an essential metal for healthy brain function. Cu dyshomeostasis has been demonstrated to be involved in some neurological conditions including
Menkes
and Alzheimer's diseases. We have previously reported localized Cu-rich aggregates in astrocytes of the subventricular zone (SVZ) in rodent brains with Cu concentrations in the hundreds of millimolar.
Metallothionein
, a cysteine-rich protein critical to metal homeostasis and known to participate in a variety of neuroprotective and neuroregenerative processes, was proposed as a binding protein. Here, we present an analysis of metallothionein(1,2) knockout (MTKO) mice and age-matched controls using X-ray fluorescence microscopy. In large structures such as the corpus callosum, cortex, and striatum, there is no significant difference in Cu, Fe, or Zn concentrations in MTKO mice compared to age-matched controls. In the astrocyte-rich subventricular zone where Cu-rich aggregates reside, approximately 1/3 as many Cu-rich aggregates persist in MTKO mice resulting in a decrease in periventricular Cu concentration. Aggregates in both wild-type and MTKO mice show XANES spectra characteristic of Cu
x
S
y
multimetallic clusters and have similar [S]/[Cu] ratios. Consistent with assignment as a Cu
x
S
y
multimetallic cluster, the astrocyte-rich SVZ of both MTKO and wild-type mice exhibit autofluorescent bodies, though MTKO mice exhibit fewer. Furthermore, XRF imaging of Au-labeled lysosomes and ubiquitin demonstrates a lack of co-localization with Cu-rich aggregates suggesting they are not involved in a degradation pathway. Overall, these data suggest that Cu in aggregates is bound by either metallothionein-3 or a yet unknown protein similar to metallothionein.
...
PMID:On the nature of the Cu-rich aggregates in brain astrocytes. 2801 38
