A newly isolated gene, ESS1, was shown to encode a protein required for vegetative growth in Saccharomyces cerevisiae. The nucleotide sequence of ESS1 revealed a 172 amino acid open reading frame predicting a highly basic, 19.5 kilodalton product. Although the gene was isolated by cross-hybridization with the vertebrate v-sis oncogene, the primary amino acid sequence bears only a slight resemblance to the p28sis protein. ESS1 was shown to be single copy in the yeast genome and transcriptionally active during logarithmic growth. It is located on the right arm of chromosome X, 6 centimorgans distal to ilv3. The genetic map location indicates it is not allelic to any previously characterized mutation in this organism. Both inactivation of ESS1 by gene disruption and overexpression by fusion to a heterologous promoter were detrimental to growth in both haploid and diploid cell types. Under non-permissive conditions, the terminal phenotype of strains containing a suppressible amber mutation within ESS1 was one of aberrant multibudded structures. Examination of this morphology indicates that loss of ESS1 function may lead to a defect in cytokinesis or cell separation.
The structurally unrelated immunosuppressants FK506 and cyclosporin A (CsA) act similarly, inhibiting a Ca(2+)-dependent signal required for interleukin-2 transcription and T-cell activation. Each drug binds to its cytosolic receptor, FKBP-12 and cyclophilin, respectively, and the drug-receptor complexes inhibit the Ca2+/calmodulin-dependent protein phosphatase, calcineurin. In yeast, calcineurin has been implicated in recovery from alpha-mating factor arrest. Here we show that FK506 bound to yeast FKBP-12 appears to form a complex with yeast calcineurin. Moreover, recovery from mating factor arrest is highly sensitive to FK506 or CsA, and this sensitivity requires the presence of FKBP-12 or cyclophilin, respectively. These results define a key physiological target of an FK506- and CsA-sensitive signal pathway in yeast, suggest a high degree of mechanistic conservation with mammalian cells, and indicate that further examination of the yeast system should provide insight into the same process in T cells.
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