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)
Copper deficiency during pregnancy results in early embryonic death and foetal structural abnormalities including skeletal, pulmonary and cardiovascular defects. During pregnancy, copper is transported from the maternal circulation to the foetus by mechanisms which have not been clearly elucidated. Two copper-transporting ATPases,
Menkes
(ATP7A;
MNK
) and Wilson (ATP7B; WND), are expressed in the placenta and both are involved in placental copper transport, as copper accumulates in the placenta in both
Menkes
and Wilson disease. The regulatory mechanisms of
MNK
and WND and their exact role in the placenta are unknown. Using a differentiated polarized Jeg-3 cell culture model of placental trophoblasts,
MNK
and WND were shown to be expressed within these cells. Distinct roles for
MNK
and WND are suggested on the basis of their opposing responses to insulin.
Insulin
and oestrogen increased both
MNK
mRNA and protein levels, altered the localization of
MNK
towards the basolateral membrane in a copper-independent manner, and increased the transport of copper across this membrane. In contrast, levels of WND were decreased in response to insulin, and the protein was located in a tight perinuclear region, with a corresponding decrease in copper efflux across the apical membrane. These results are consistent with a model of copper transport in the placenta in which
MNK
delivers copper to the foetus and WND returns excess copper to the maternal circulation.
Insulin
and oestrogen stimulate copper transport to the foetus by increasing the expression of
MNK
and reducing the expression of WND. These data show for the first time that
MNK
and WND are differentially regulated by the hormones insulin and oestrogen in human placental cells.
...
PMID:Hormonal regulation of the Menkes and Wilson copper-transporting ATPases in human placental Jeg-3 cells. 1730 Feb 24
Copper (Cu) plays a critical role in the developing foetus, but virtually nothing is known concerning the regulation of its uptake and metabolism in the placenta. In this issue of the Biochemical Journal, Hardman and colleagues, using a model of placental trophoblasts in culture, identify differential hormonal regulation of two copper-transporting ATPases; namely, those responsible for
Menkes disease
(ATP7A;
MNK
) and Wilson disease (ATP7B; WND).
Insulin
and oestrogen, which are essential during gestation, up-regulate
MNK
and this leads to trafficking of the
MNK
protein from the Golgi to the basolateral membrane, resulting in increased Cu efflux. At the same time, insulin decreased WND levels, and this leads to intracellular sequestration of the protein to a perinuclear region that reduces apical Cu release. As such, this results in a concerted flux of Cu from the basolateral surface of the trophoblast that would potentially be used by the developing foetus. An integrated model of vectorized Cu transport is proposed, which involves co-ordinated expression of transporters, organelle interactions and probable protein-protein interactions. The findings have wider implications for considering general models of intracellular metal transport.
...
PMID:Differential regulation of the Menkes and Wilson disease copper transporters by hormones: an integrated model of metal transport in the placenta. 1710 27
