Ste11p, a High-Mobility-Group Box DNA-Binding Protein, Undergoes Pheromone- and Nutrient-Regulated Nuclear-Cytoplasmic Shuttling

Abstract

The high-mobility-group (HMG) box is a conserved DNA-binding domain found in a family of transcription factors that regulate growth and development. One family member, Ste11p, directs sexual differentiation of Schizosaccharomyces pombe by binding specific DNA sequences upstream of genes required for mating and meiosis. Here, we show that Ste11p is a shuttling protein. In growing cells, Ste11p is present in low levels and is pancellular. Mating pheromones and nutrient limitation trigger nuclear accumulation and increased expression of the transcription factor. Several mechanisms likely control Ste11p localization. First, the 14-3-3 protein, Rad24p, binds phosphorylated Ste11p and inhibits its nuclear accumulation. Second, the HMG domain of Ste11p contains a basic cluster nuclear localization signal. Finally, treatment of cells with leptomycin B, an exportin inhibitor, results in the nuclear accumulation of Ste11p. A Ste11p deletion mutation, ΔC54, mimics the effects of leptomycin B. The C54 region contains no identifiable nuclear export signal but instead is required for biological activity and to stimulate Ste11p target gene expression. These results provide evidence that both nuclear import and export mechanisms operate to regulate cellular localization of an HMG box protein. In addition, they establish a paradigm for the potential role of pheromone/hormone-like polypeptides in cellular localization of this important class of developmental regulators.

ACKNOWLEDGMENTS

Curt Horvath, Christopher Roman, and Brehon Laurent are thanked for many helpful discussions. Annette Kirchgessner is gratefully acknowledged for assistance with the confocal microscope. Olaf Nielsen is thanked for fission yeast strains.

This work was supported by grants from the American Heart Association (9850102T) and the National Institutes of Health (5RO1GM56875).