Polyploid yeast are dependent on elevated levels of Mps1 for successful chromosome segregation.

Losing or gaining chromosomes during cell division leads to aneuploidy (an abnormal number of chromosomes) and can contribute to cancer and other diseases. Indeed, most cells in solid tumors carry abnormally elevated numbers of chromosomes. Mps1 is a regulator of the machinery that distributes chromosomes to daughter cells. In tumors with elevated chromosome numbers the expression of Mps1 is often also elevated. In some aneuploid tumor cell lines these elevated Mps1 levels have been shown to be critical for survival tumor survival. To determine how cells with higher ploidy become dependent on Mps1, we explored Mps1-dependence in yeast cells with increased numbers of chromosomes. We report that yeast cells with elevated chromosome number are sensitive to reductions Mps1 expression. In cells with high ploidy and reduced levels of Mps1, the progression of the cell cycle is delayed and the ability of the cells to properly orient and segregate their chromosomes on the spindle is greatly reduced.