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Biophysical physiology of phosphoinositide rapid dynamics and regulation in living cells.

Jill B JensenBjoern H FalkenburgerEamonn J DicksonLizbeth de la CruzGucan DaiJongyun MyeongSeung-Ryoung JungMartin KruseOscar VivasByung-Chang SuhBertil Hille
Published in: The Journal of general physiology (2022)
Phosphoinositide membrane lipids are ubiquitous low-abundance signaling molecules. They direct many physiological processes that involve ion channels, membrane identification, fusion of membrane vesicles, and vesicular endocytosis. Pools of these lipids are continually broken down and refilled in living cells, and the rates of some of these reactions are strongly accelerated by physiological stimuli. Recent biophysical experiments described here measure and model the kinetics and regulation of these lipid signals in intact cells. Rapid on-line monitoring of phosphoinositide metabolism is made possible by optical tools and electrophysiology. The experiments reviewed here reveal that as for other cellular second messengers, the dynamic turnover and lifetimes of membrane phosphoinositides are measured in seconds, controlling and timing rapid physiological responses, and the signaling is under strong metabolic regulation. The underlying mechanisms of this metabolic regulation remain questions for the future.
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