Abstract
Glutaredoxins belong to a family of small proteins with glutathione-dependent disulfide oxidoreductase activity involved in cellular defense against oxidative stress. The product of the yeast GRX2 gene is a protein that is localized both in the cytosol and mitochondria. To throw light onto the mechanism responsible for the dual subcellular distribution of Grx2 we analyzed mutant constructs containing different targeting information. By altering amino acid residues around the two in-frame translation initiation start sites of the GRX2 gene, we could demonstrate that the cytosolic isoform of Grx2 was synthesized from the second AUG, lacking an N-terminal extension. Translation from the first AUG resulted in a long isoform carrying a mitochondrial targeting presequence. The mitochondrial targeting properties of the presequence and the influence of the mature part of Grx2 were analyzed by the characterization of the import kinetics of specific fusion proteins. Import of the mitochondrial isoform is relatively inefficient and results in the accumulation of a substantial amount of unprocessed form in the mitochondrial outer membrane. Substitution of Met(35), the second translation start site, to Val resulted in an exclusive targeting to the mitochondrial matrix. Our results show that a plethora of Grx2 subcellular localizations could spread its antioxidant functions all over the cell, but one single A to G [corrected] mutation converts Grx2 into a typical protein of the mitochondrial matrix. The "A" denotes adenine, rather than alanine, and the "G" refers to guanine, not glycine [corrected]
Highlights
Reversible reduction of disulfide bonds is catalyzed by thiol-disulfide oxidoreductases namely thioredoxin (Trx)2 and glutaredoxin (Grx)
Preparation and Phenotypical Analysis of grx2 Mutants—In a previous study we have demonstrated that wild-type S. cerevisiae contains two mitochondrial and one cytosolic isoforms of Grx2 [16]
We asked which properties of the protein were responsible for this unusual subcellular distribution of Grx2
Summary
Reversible reduction of disulfide bonds is catalyzed by thiol-disulfide oxidoreductases namely thioredoxin (Trx) and glutaredoxin (Grx) These are small proteins belonging to the “thioredoxin fold” structural family, with an active site containing the dithiol motif CXXC, some members are monothiolic (6, 8 –12). Localization of human Grx in mitochondria has been shown to be due to alternative splicing of one single gene [20] This variant Grx has deglutathionylase and glutathione S-transferase activity and can be reduced by TrxR, a member of the Trx system what constitutes an interesting link between both “redoxin” systems [30]. Spreading of the protein over subcellular compartments is apparently the consequence of post-transcriptional phenomena taking place during and/or after translation With this in mind we have performed experiments to establish the molecular mechanisms that contribute to the multiple subcellular locations of yeast Grx. The characterization of its subcellular localization will provide the basis for the definition of the cellular functions of the multiple Grx isoforms
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