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Phospholipase A2 as a mechanosensor.
Authors:J Y Lehtonen and P K Kinnunen
Abstract:Osmotic swelling of large unilamellar vesicles (LUVs) causes membrane stretching and thus reduces the lateral packing of lipids. This is demonstrated to modulate strongly the catalytic activity of phospholipase A2 (PLA2) toward a fluorescent phospholipid, 1-palmitoyl-2-[(6-pyren-1-yl)]decanoyl-sn-glycero-3-phosphocholine (PPDPC) residing in LUVs composed of different unsaturated and saturated phosphatidylcholines. The magnitude of the osmotic pressure gradient delta omega required for maximal PLA2 activity as well as the extent of activation depend on the degree of saturation of the membrane phospholipid acyl chains. More specifically, delta omega needed for maximal hydrolytic activity increases in the sequence DOPC < SOPC < DMPC in accordance with the increment in the intensity of chain-chain van der Waals interactions. Previous studies on the hydrolysis of substrate monolayers by C. adamanteus and N. naja PLA2 revealed maximal hydrolytic rates for these two enzymes to be achieved at lipid packing densities corresponding to surface pressures of 12 and 18 mN m-1, respectively. In keeping with the above the magnitudes of delta omega producing maximal activity of Crotalus adamanteus and Naja naja toward PPDPC/DMPC LUVs were 40 and 20 mOsm/kg, respectively. Our findings suggest a novel possibility of regulating the activity of PLA2 and perhaps also other lipid packing density-dependent enzymes in vivo by osmotic forces applied on cellular membranes. Importantly, our results reveal serendipitously that the responsiveness of membranes to osmotic stress is modulated by the acyl chain composition of the lipids.
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