Functional characterization of the fission yeast phosphatidylserine synthase gene, pps1, reveals novel cellular functions for phosphatidylserine

To investigate the contributions of phosphatidylserine to the growth and morphogenesis of the rod-shaped fission yeast Schizosaccharomyces pombe, we have characterized the single gene in this organism, pps1, encoding a predicted phosphatidylserine synthase. S. pombe pps1 Delta mutants grow slowly in rich medium and are inviable in synthetic minimal medium. They do not produce detectable phosphatidylserine in vivo and possess negligible in vitro phosphatidylserine synthase activity, indicating that pps1 encodes the major phosphatidylserine synthase activity in S. pombe. Supplementation of growth medium with ethanolamine partially suppresses the growth-defective phenotype of pps1 Delta cells, reflecting the likely importance of phosphatidylserine as a precursor for phosphatidylethanolamine in S. pombe. In medium lacking ethanolamine, pps1 Delta mutants exhibit striking cell morphology, cytokinesis, actin cytoskeleton, and cell wall remodeling and integrity defects. Overexpression of pps1 likewise leads to defects in cell morphology and cytokinesis, thus implicating phosphatidylserine as a dosage-dependent regulator of these processes. During log-phase growth, green fluorescent protein-Pps1p fusion proteins are concentrated at the cell and nuclear peripheries as well as presumptive endoplasmic reticulum membranes, while in stationary-phase cells, they are redistributed to unusual cytoplasmic structures of unknown origin. Moreover, stationary-phase pps1 Delta cultures retain very poor viability relative to wild-type S. pombe cells, even in medium containing ethanolamine, demonstrating a role for phosphatidylserine in the physiological adaptations required for stationary- phase survival. Our findings reveal novel cellular functions for phosphatidylserine and emphasize the usefulness of S. pombe as a model organism for elucidating potentially conserved biological and molecular functions of this phospholipid.