Abstract
Copper uptake and subsequent delivery to copper-dependent enzymes are essential for many cellular processes. However, the intracellular levels of this nutrient must be controlled because of its potential toxicity. The hCtr1 protein functions in high affinity copper uptake at the plasma membrane of human cells. Recent studies have shown that elevated copper stimulates the endocytosis and degradation of the hCtr1 protein, and this response is likely an important homeostatic mechanism that prevents the overaccumulation of copper. The domains of hCtr1 involved in copper-stimulated endocytosis and degradation are unknown. In this study we examined the importance of potential copper-binding sequences in the extracellular domain and a conserved transmembrane (150)MXXXM(154) motif for copper-stimulated endocytosis and degradation of hCtr1. The endocytic response of hCtr1 to low copper concentrations required an amino-terminal methionine cluster ((40)MMMMPM(45)) closest to the transmembrane region. However, this cluster was not required for the endocytic response to higher copper levels, suggesting this motif may function as a high affinity copper-sensing domain. Moreover, the transmembrane (150)MXXXM(154) motif was absolutely required for copper-stimulated endocytosis and degradation of hCtr1 even under high copper concentrations. Together with previous studies demonstrating a role for these motifs in high affinity copper transport activity, our findings suggest common biochemical mechanisms regulate both transport and trafficking functions of hCtr1.
Highlights
Copper uptake and subsequent delivery to copper-dependent enzymes are essential for many cellular processes
Mutagenic Analysis of Copper-stimulated hCtr1 Endocytosis studies of the yeast ⌬ctr1⌬ctr3⌬ mutant suggest that the M2 motif, but not the M1, H1, or H2 motifs, is required for high affinity copper uptake activity under low copper conditions [16]
The same study found that both methionines of the conserved 150MXXXM154 motif are absolutely critical for copper uptake via hCtr1 but not for localization to the plasma membrane
Summary
Copper uptake and subsequent delivery to copper-dependent enzymes are essential for many cellular processes. In this study we examined the importance of potential copper-binding sequences in the extracellular domain and a conserved transmembrane 150MXXXM154 motif for copper-stimulated endocytosis and degradation of hCtr. Recent studies of yCtr and hCtr proteins have revealed that the Mets motifs are essential for normal copper uptake when extracellular levels are low, This paper is available on line at http://www.jbc.org suggesting that these sequences primarily function to scavenge copper when the metal is scarce [16]. Mutation of either methionine of the 150MXXXM154 motif completely abolished copper-responsive endocytosis and degradation of hCtr even under high copper concentrations These findings suggest a model whereby the endocytic response of hCtr to copper may require the protein to be a functional copper transporter
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