Expression, processing and high level secretion of a virus toxin in fission yeast

Abstract.

The virally encoded K28 toxin of Saccharomyces cerevisiae kills sensitive yeast cells in a multi-step receptor-mediated fashion by cell cycle arrest and inhibition of DNA synthesis. In vivo, the toxin is translated as a 38 kDa preprotoxin (pptox) which is enzymatically processed to the biologically active α/β heterodimer during passage through the yeast secretory pathway. Here, we demonstrate that Schizosaccharomyces pombe, a yeast from which no natural toxin-secreting killer strains are known, is perfectly capable of expressing a killer phenotype. Episomal as well as integrating K28 pptox gene cassettes were constructed that allowed a tightly thiamine-regulated killer phenotype expression under transcriptional control of the Sch. pombe nmt1 promotor. Northern analysis of the toxin-coding transcript as well as Western analysis of the secreted toxin indicated that fission yeast is capable of expressing a correctly processed and fully functional virus toxin. Moreover, toxin secretion in recombinant Sch. pombe was at least ten-fold higher than in any natural and/or recombinant Sac. cerevisiae killer strain, indicating that pptox-derived vectors might be attractive in the fast growing field of heterologous protein expression and secretion in yeast.