Phosphoinositides alter lipid bilayer properties
by Rusinova, R.; Hobart, E. A.; Koeppe, R. E.; Andersen, O. S.
Phosphatidylinositol-4,5-bisphosphate (PIP2), which constitutes. similar to 1% of the plasma membrane phospholipid, plays a key role in membrane-delimited signaling. PIP2 regulates structurally and functionally diverse membrane proteins, including voltage-and ligand-gated ion channels, inwardly rectifying ion channels, transporters, and receptors. In some cases, the regulation is known to involve specific lipid-protein interactions, but the mechanisms by which PIP2 regulates many of its various targets remain to be fully elucidated. Because many PIP2 targets are membrane-spanning proteins, we explored whether the phosphoinositides might alter bilayer physical properties such as curvature and elasticity, which would alter the equilibrium between membrane protein conformational states-and thereby protein function. Taking advantage of the gramicidin A (gA) channels' sensitivity to changes in lipid bilayer properties, we used gA-based fluorescence quenching and single-channel assays to examine the effects of long-chain PIP(2)s (brain PIP2, which is predominantly 1-stearyl-2-arachidonyl-PIP2, and dioleoyl-PIP2) on bilayer properties. When premixed with dioleoyl-phosphocholine at 2 mol %, both long-chain PIP(2)s produced similar changes in gA channel function (bilayer properties); when applied through the aqueous solution, however, brain PIP2 was a more potent modifier than dioleoyl-PIP2. Given the widespread use of short-chain dioctanoylphosphoinositides, we also examined the effects of diC8-phosphoinositol (PI), PI(4,5) P-2, PI(3,5) P-2, PI(3,4) P-2, and PI(3,4,5) P-3. The diC(8) phosphoinositides, except for PI(3,5) P-2, altered bilayer properties with potencies that decreased with increasing head group charge. Nonphosphoinositide diC(8) phospholipids generally were more potent bilayer modifiers than the polyphosphoinositides. These results show that physiological increases or decreases in plasma membrane PIP2 levels, as a result of activation of PI kinases or phosphatases, are likely to alter lipid bilayer properties, in addition to any other effects they may have. The results further show that exogenous PIP2, as well as structural analogues that differ in acyl chain length or phosphorylation state, alters lipid bilayer properties at the concentrations used in many cell physiological experiments
- Journal
- Journal of General Physiology
- Volume
- 141
- Issue
- 6
- Year
- 2013
- Start Page
- 673-690
- URL
- https://dx.doi.org/10.1085/jgp.201310960
- ISBN/ISSN
- 1540-7748; 0022-1295
- DOI
- 10.1085/jgp.201310960