Contribution of the yeast saccharomyces cerevisiae model to understand the mechanisms of selenium toxicity

Selenium (Se) is an essential trace element for mammals. It is involved in redox functions as the amino acid selenocysteine, translationally inserted in the active site of a few proteins. However, at high doses it is toxic and the mechanisms underlying this toxicity are poorly understood. Because of the high level of conservation of its genes and pathways with those of higher organisms and the powerful genetic techniques that it offers, Saccharomyces cerevisiae is an attractive model organism to study the molecular basis of Se toxicity. High-throughput technologies developed in this yeast include genome-wide screening of bar-coded systematic deletion sets, as well as whole-transcriptome, -proteome, and -metabolome analysis. This chapter focuses on the contribution of S. cerevisiae to the understanding of the mechanisms of selenocompound toxicity, combining results from classical biochemistry with genome-wide analyses and more detailed gene-by-gene approaches. Experimental data demonstrate that toxicity is compound specific. Inorganic Se induces DNA damage whereas selenoamino acids cause proteotoxicity.