Abstract
We explored the role of known copper transporters and chaperones in delivering copper to peptidylglycine-alpha-hydroxylating monooxygenase (PHM), a copper-dependent enzyme that functions in the secretory pathway lumen. We examined the roles of yeast Ccc2, a P-type ATPase related to human ATP7A (Menkes disease protein) and ATP7B (Wilson disease protein), as well as yeast Atx1, a cytosolic copper chaperone. We expressed soluble PHMcc (catalytic core) in yeast using the yeast pre-pro-alpha-mating factor leader region to target the enzyme to the secretory pathway. Although the yeast genome encodes no PHM-like enzyme, PHMcc expressed in yeast is at least as active as PHMcc produced by mammalian cells. PHMcc partially co-migrated with a Golgi marker during subcellular fractionation and partially co-localized with Ccc2 based on immunofluorescence. To determine whether production of active PHM was dependent on copper trafficking pathways involving the CCC2 or ATX1 genes, we expressed PHMcc in wild-type, ccc2, and atx1 mutant yeast. Although ccc2 and atx1 mutant yeast produce normal levels of PHMcc protein, it lacks catalytic activity. Addition of exogenous copper yields fully active PHMcc. Similarly, production of active PHM in mouse fibroblasts is impaired in the presence of a mutant ATP7A gene. Although delivery of copper to lumenal cuproproteins like PAM involves ATP7A, lumenal chaperones may not be required.
Highlights
Copper, a trace element required by most organisms, is indispensable as a cofactor in a number of oxygen-processing proteins involved in diverse biological processes
We examined the roles of yeast Ccc2, a P-type ATPase related to human ATP7A (Menkes disease protein) and ATP7B (Wilson disease protein), as well as yeast Atx1, a cytosolic copper chaperone
Cytochrome c oxidase is essential for respiration, superoxide dismutase is essential for free radical detoxification, lysyl oxidase is essential for maturation for connective tissue, ceruloplasmin is essential for iron uptake, tyrosinase is essential for melanin synthesis, and dopamine -monooxygenase is essential for catecholamine formation [1]
Summary
A trace element required by most organisms, is indispensable as a cofactor in a number of oxygen-processing proteins involved in diverse biological processes. Cytochrome c oxidase is essential for respiration, superoxide dismutase is essential for free radical detoxification, lysyl oxidase is essential for maturation for connective tissue, ceruloplasmin is essential for iron uptake, tyrosinase is essential for melanin synthesis, and dopamine -monooxygenase is essential for catecholamine formation [1] Another important copper-dependent enzyme, peptidylglycine ␣-amidating monooxygenase (PAM), catalyzes the C-terminal amidation of. Peptide amidation occurs in two consecutive steps that require the peptidylglycine ␣-hydroxylating monooxygenase (PHM) and peptidyl-␣-hydroxyglycine ␣-amidating lyase (PAL) domains of the bifunctional PAM protein (see Fig. 1). This reaction can be initiated in the trans-Golgi network but occurs primarily within secretory granules [6, 7]. It has been shown that the molecular components of copper trafficking pathways are highly conserved between
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