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Literature DB >> 9321757

Abnormalities of copper accumulation in cell lines established from nine different alleles of mottled are the same as those found in Menkes disease.

W Masson¹, H Hughes, D Papworth, Y Boyd, N Horn.

Abstract

Menkes disease (MD) is caused by a defect in copper homeostasis and has a recognised mouse model, mottled (Atp7aMo). Copper uptake and retention assays performed on fibroblast cultures have been used successfully for pre- and postnatal diagnosis of Menkes disease. We report here the results of these assays applied to primary fibroblast cultures established from nine independent mottled alleles associated with phenotypes of varying severity maintained on identical genetic backgrounds. No significant differences were found between the different alleles, or between the mottled cultures and fibroblasts established from MD patients. Thus, in the mouse, the data obtained for copper retention/uptake at the cellular level do not correlate with the severity of the phenotype.

Entities: Chemical Disease Gene Species

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Year: 1997 PMID： 9321757 PMCID： PMC1051055 DOI： 10.1136/jmg.34.9.729

Source DB: PubMed Journal: J Med Genet ISSN： 0022-2593 Impact factor: 6.318

22 in total

Abnormalities of copper accumulation in cell lines established from nine different alleles of mottled are the same as those found in Menkes disease.

1. Prenatal and postnatal diagnosis of Menkes disease, an inherited disorder of copper metabolism.

2. The mottled mouse as a model for human Menkes disease: identification of mutations in the Atp7a gene.

3. Mutation analysis provides additional proof that mottled is the mouse homologue of Menkes' disease.

4. Isolation of a candidate gene for Menkes disease that encodes a potential heavy metal binding protein.

5. Isolation of a candidate gene for Menkes disease and evidence that it encodes a copper-transporting ATPase.

6. Isolation of a partial candidate gene for Menkes disease by positional cloning.

7. Menkes' X-linked disease: prenatal diagnosis and carrier detection.

8. Menkes X-linked disease: prenatal diagnosis of hemizygous males and heterozygous females.

9. Menkes X linked disease: two clonal cell populations in heterozygotes.

10. Menkes X linked disease: heterozygous phenotype in uncloned fibroblast cultures.

Review 1. ATP7A-related copper transport diseases-emerging concepts and future trends.

Review 2. Copper transporting P-type ATPases and human disease.

3. Fibroblast silver loading for the diagnosis of Menkes disease.

4. A Role for The ATP7A Copper Transporter in Tumorigenesis and Cisplatin Resistance.