Menkes' disease: abnormal metallothionein gene regulation in response to copper.

Abstract	Menkes' disease, an inherited disorder of copper metabolism, is characterized by the accumulation of excess copper-metallothionein in certain tissues and cell types. Using cultured fibroblasts, we show that this is due to the ability of low concentrations of copper to induce metallothionein mRNA synthesis in Menkes' but not normal cells. We also show that copper, which is unusually toxic to Menkes' cells, induces the synthesis of 84 kd and 68 kd polypeptides tentatively identified as heat shock proteins. Transfection experiments with a cloned metallothionein fusion gene show that this is due to a defect in a diffusible factor involved in either metallothionein gene transcriptional regulation or copper metabolism.
Authors	A Leone, G N Pavlakis, D H Hamer
Journal	Cell (Cell) Vol. 40 Issue 2 Pg. 301-9 (Feb 1985) ISSN: 0092-8674 [Print] United States
PMID	3967294 (Publication Type: Journal Article)
Chemical References	RNA, Messenger Copper Metallothionein
Topics	Brain Diseases, Metabolic (genetics) Copper (metabolism, toxicity) Gene Expression Regulation (drug effects) Humans Menkes Kinky Hair Syndrome (genetics, metabolism) Metallothionein (biosynthesis, genetics) Models, Biological Mutation RNA, Messenger (analysis) Transcription, Genetic (drug effects)

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