The relationship of excess copper accumulation by fibroblasts from the brindled mouse model of Menkes disease to the primary defect

Abstract

Fibroblasts from the brindled mouse model of Menkes disease are known to accumulate excess copper. Most of the copper in the cytosol of these fibroblasts is bound to metallothionein (MT), which is elevated in Menkes or brindled mouse fibroblasts. Copper accumulation by normal fibroblasts containing excess MT was examined to determine if the excess copper accumulation phenotype was secondary to excess MT or associated with the primary defect in fibroblasts from the brindled mice. MT was induced in normal fibroblasts by copper, zinc or dexamethasone to levels comparable with those in brindled mice fibroblasts, as determined by radioimmunoassays. Normal fibroblasts containing excess MT accumulate copper normally, i.e. they do not exhibit the excess copper accumulation phenotype. Consistent with this result, copper efflux from normal fibroblasts containing excess MT was also normal. The data suggest that one function of the protein associated with the primary defect is to help determine how much copper is taken up and retained by fibroblasts and other cell types exhibiting the excess copper phenotype in Menkes disease. The capacity of this protein is apparently exceeded in normal fibroblasts if serum or albumin is not present extracellularly to limit total copper uptake. Consistent with a defect in an intracellular protein, the kinetics of copper transport by brindled mice fibroblasts were found to be normal.