Abstract
Detoxification and homeostatic acquisition of metal ions are vital for all living organisms. We have identified PCA1 in yeast Saccharomyces cerevisiae as an overexpression suppressor of copper toxicity. PCA1 possesses signatures of a P1B-type heavy metal-transporting ATPase that is widely distributed from bacteria to humans. Copper resistance conferred by PCA1 is not dependent on catalytic activity, but it appears that a cysteine-rich region located in the N terminus sequesters copper. Unexpectedly, when compared with two independent natural isolates and an industrial S. cerevisiae strain, the PCA1 allele of the common laboratory strains we have examined possesses a missense mutation in a predicted ATP-binding residue conserved in P1B-type ATPases. Consistent with a previous report that identifies an equivalent mutation in a copper-transporting P1B-type ATPase of a Wilson disease patient, the PCA1 allele found in laboratory yeast strains is nonfunctional. Overexpression or deletion of the functional allele in yeast demonstrates that PCA1 is a cadmium efflux pump. Cadmium as well as copper and silver, but not other metals examined, dramatically increase PCA1 protein expression through post-transcriptional regulation and promote subcellular localization to the plasma membrane. Our study has revealed a novel metal detoxification mechanism in yeast mediated by a P1B-type ATPase that is unique in structure, substrate specificity, and mode of regulation.
Highlights
By the perturbation of cellular redox balance, inhibition of DNA repair, disruption of metal ion homeostasis, and alterations in signal transduction (8 –12)
The P1B-type ATPase family of heavy metal transporters that are distributed from bacteria to humans extrude toxic metal ions such as copper, silver, zinc, cobalt, lead, and/or cadmium from the cell [13,14,15,16,17,18]
PCA1 N-terminal Domain Confers Copper Resistance in Yeast—To identify new factors involved in heavy metal defense, we carried out a selection of S. cerevisiae cDNAs that suppress lethality of the ace1⌬ yeast strain on toxic copper media
Summary
The P1B-type ATPase family of heavy metal transporters that are distributed from bacteria to humans extrude toxic metal ions such as copper, silver, zinc, cobalt, lead, and/or cadmium from the cell [13,14,15,16,17,18]. Functional characterization of this family of transporters has supported the conclusion that efflux mechanisms play critical roles in metal detoxification in bacterial cells [13,14,15]. The wild-type PCA1 allele confers cadmium resistance by an efflux mechanism accompanied by a novel mode of metal-dependent post-transcriptional regulation
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