Abstract
BackgroundPhosphoinositide lipids provide spatial landmarks during polarized cell growth and migration. Yet how phosphoinositide gradients are oriented in response to extracellular cues and environmental conditions is not well understood. Here, we elucidate an unexpected mode of phosphatidylinositol 4-phosphate (PI4P) regulation in the control of polarized secretion.ResultsWe show that PI4P is highly enriched at the plasma membrane of growing daughter cells in budding yeast where polarized secretion occurs. However, upon heat stress conditions that redirect secretory traffic, PI4P rapidly increases at the plasma membrane in mother cells resulting in a more uniform PI4P distribution. Precise control of PI4P distribution is mediated through the Osh (oxysterol-binding protein homology) proteins that bind and present PI4P to a phosphoinositide phosphatase. Interestingly, Osh3 undergoes a phase transition upon heat stress conditions, resulting in intracellular aggregates and reduced cortical localization. Both the Osh3 GOLD and ORD domains are sufficient to form heat stress-induced aggregates, indicating that Osh3 is highly tuned to heat stress conditions. Upon loss of Osh3 function, the polarized distribution of both PI4P and the exocyst component Exo70 are impaired. Thus, an intrinsically heat stress-sensitive PI4P regulatory protein controls the spatial distribution of phosphoinositide lipid metabolism to direct secretory trafficking as needed.ConclusionsOur results suggest that control of PI4P metabolism by Osh proteins is a key determinant in the control of polarized growth and secretion.
Highlights
Phosphoinositide lipids provide spatial landmarks during polarized cell growth and migration
We propose that the control of phosphatidylinositol 4-phosphate (PI4P) metabolism may provide a conserved mechanism to direct polarized growth and cellular responses to changes in environmental conditions
Under non-stress growth conditions (26 °C), the PI4P FLARE was highly enriched at the plasma membrane (PM) of daughter cells compared to mother cells (> 5-fold, Fig. 1b, c, Additional file 2: Fig. 1c and 1d Dataset)
Summary
Phosphoinositide lipids provide spatial landmarks during polarized cell growth and migration. We elucidate an unexpected mode of phosphatidylinositol 4-phosphate (PI4P) regulation in the control of polarized secretion. PI4P has vital roles in the control of PM ion channels and the general recruitment of polybasic proteins to the PM [1]. PI4P may even serve as a spatial cue or signpost for protein targeting to specialized PM domains. Synthesis of PI4P at the PM is carried out by phosphatidylinositol 4-kinase type IIIα ( known as PI4KIIIα), which is encoded by PI4KA in mammals and the STT4 gene in Saccharomyces cerevisiae [5, 7, 8]. The yeast Stt PI4KIIIα protein localizes to cortical assemblies termed PIK (phosphoinositide kinase) patches, consistent with its essential role in generation of PI4P at the PM [5, 9, 10].
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