The role of the exocytic pathway in cell wall assembly in yeast

The cell wall is a dynamic organelle which is tightly controlled for cell morphology, viability, and pathogenesis. It was previously shown that exocytosis is involved in the secretion of some components and enzymes of the cell wall. However, how the secretory pathway affects the cell wall integrity and assembly remains unclear. Here we show that the secretory pathway mutant (sec) cells were sensitive to cell wall antagonists in Saccharomyces cerevisiae, and they were lysed at restrictive conditions but can be rescued by osmotic stabilizers, indicating their cell walls were disrupted. Although glucans were reduced at the cell surface in sec mutants as speculated, the other two main cell wall components, chitins, and mannoproteins, were accumulated at the cell surface. We also found that both the protein level and the phosphorylation level of Slt2 increased in sec mutants. These results suggest that the exocytic pathway has a critical role in cell wall assembly. Our study will help to understand the mechanism of cell wall formation.