Intracellular localization and loss of copper responsiveness of Mnk, the murine homologue of the Menkes protein, in cells from blotchy (Mo blo) and brindled (Mo br) mouse mutants.

摘要

Menkes disease is an X-linked copper deficiency disorder that results from mutations in the ATP7A ( MNK ) gene. A wide range of disease-causing mutations within ATP7A have been described, which lead to a diversity of phenotypes exhibited by Menkes patients. The mottled locus ( Mo, Atp7a, Mnk ) represents the murine homologue of the ATP7A gene, and the mottled mutants exhibit a diversity of phenotypes similar to that observed among Menkes patients. Therefore, these mutants are valuable models for studying Menkes disease. Two of the mottled mutants are brindled and blotchy and their phenotypes resemble classical Menkes disease and occipital horn syndrome (OHS) in humans, respectively. That is, the brindled mutant and patients with classical Menkes disease are severely copper deficient and have profound neurological problems, while OHS patients and the blotchy mouse have a much milder phenotype with predominantly connective tissue defects. In this study, in an attempt to understand the basis for the brindled and blotchy phenotypes, the copper transport characteristics and intracellular distribution of the Mnk protein were assessed in cultured cells from these mutants. The results demonstrated that the abnormal copper metabolism of brindled and blotchy cells may be related to a number of factors, which include the amount of Mnk protein, the intracellular location of the protein and the ability of Mnk to redistribute in elevated copper. The data also provide evidence for a relationship between the copper transport function and copper-dependent trafficking of Mnk.