The yeast cadmium factor (YCF1) gene encodes an MgATP-energized glutathione S-conjugate transporter responsible for the vacuolar sequestration of organic compounds after their S-conjugation with glutathione. However, while YCF1 was originally isolated according to its ability to confer resistance to cadmium salts, neither its mode of interaction with Cd 2؉ nor the relationship between this process and organic glutathione-conjugate transport are known. Here we show through direct comparisons between vacuolar membrane vesicles purified from Saccharomyces cerevisiae strain DTY167, harboring a deletion of the YCF1 gene, and the isogenic wild-type strain DTY165 that YCF1 mediates the MgATP-energized vacuolar accumulation of Cd⅐glutathione complexes. The substrate requirements, kinetics and Cd 2؉ ͞ glutathione stoichiometry of cadmium uptake and the molecular weight of the transport-active complex demonstrate that YCF1 selectively catalyzes the transport of bis(glutathionato)cadmium (Cd⅐GS 2 ). On the basis of these results-the Cd 2؉ hypersensitivity of DTY167, versus DTY165, cells, the inducibility of YCF1-mediated transport, and the rapidity and spontaneity of Cd⅐GS 2 formation-this new pathway is concluded to contribute substantially to Cd 2؉ detoxification.A new class of ATP-binding cassette (ABC) transporter responsible for MgATP-energized transport of organic compounds after their conjugation with glutathione (GSH) has recently been discovered. Formerly designated the GS-X pump (1), this transporter, or family of transporters, has been implicated in the extrusion of a broad range of S-conjugated compounds from the cytosol.To date, two closely related GS-X pumps have been identified molecularly. These are the human multidrug resistanceassociated protein (MRP1) (2, 3) and the yeast cadmium factor (YCF1) protein (4, 5). MRP1 and YCF1 are 43% identical (63% similar) at the amino acid level, possess nucleotide binding folds with an equivalent spacing of conserved residues, and contain two subclass-specific structures, a central truncated cystic fibrosis transmembrane conductance regulatorlike ''regulatory'' domain, rich in charged amino acids, and an Ϸ200-amino acid residue N-terminal extension (2, 4). MRP1 catalyzes the MgATP-energized transport of leukotriene C 4 and related GSH S-conjugates (GS-conjugates) across the plasma membrane of mammalian cells (3, 6, 7). YCF1 catalyzes the transport of organic GS-conjugates into the vacuole of Saccharomyces cerevisiae (5).Given the participation of both of these integral membrane proteins in the transport of organic GS-conjugates and their implied role in the elimination and͞or sequestration of cytotoxic drugs, it is intriguing that the YCF1 gene was initially identified by screening a yeast genomic library for the ability of multicopy DNA fragments to confer resistance to cadmium salts in the growth medium (4). The question of how the vacuolar sequestration of organic GS-conjugates by YCF1 is related to Cd 2ϩ resistance therefore arises. Specifically, is the detox...
