The SEC14 gene encodes a phosphatidylinositol/phosphatidylcholine transfer protein essential for secretion and growth in yeast (1). Mutations (cki1, cct1, and cpt1) in the CDP-choline pathway for phosphatidylcholine synthesis suppress the sec14 growth defect (2), permitting sec14(ts) cki1, sec14(ts) cct1, and sec14(ts) cpt1 strains to grow at the sec14(ts) restrictive temperature. Previously, we reported that these double mutant strains also excrete the phospholipid metabolites, choline and inositol (3). We now report that these choline and inositol excretion phenotypes are eliminated when the SPO14 (PLD1) gene encoding phospholipase D1 is deleted. In contrast to sec14(ts) cki1 strains, sec14(ts) cki1 pld1 strains are not viable at the sec14(ts) restrictive temperature and exhibit a pattern of invertase secretion comparable with sec14(ts) strains. Thus, the PLD1 gene product appears to play an essential role in the suppression of the sec14(ts) defect by CDP-choline pathway mutations, indicating a role for phospholipase D1 in growth and secretion. Furthermore, sec14(ts) strains exhibit elevated Ca2+-independent, phophatidylinositol 4,5-bisphosphate-stimulated phospholipase D activity. We also propose that phospholipase D1-mediated phosphatidylcholine turnover generates a signal that activates transcription of INO1, the structural gene for inositol 1-phosphate synthase.

• PMID: 9642212
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Journal Article | Research Support, U.S. Gov't, P.H.S.

Authors

Sreenivas A, Patton-Vogt JL, Bruno V, Griac P, Henry SA

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