N ‐Stearoyl‐phosphatidylserine: Synthesis and role in divalent‐cation‐induced aggregation and fusion

N ‐Acylphosphatidylserines have been isolated from intact and injured tissues, but the participation of such acidic phospholipids in membrane aggregation and fusion has not been demonstrated. We have synthesized N ‐stearoylphosphatidylserine (NSPS) and examined divalent‐cation‐induced aggregation of NSPS‐liposomes, which leads to membrane destabilization and fusion. The purified lipid was characterized by its chromatographic and spectroscopic (infrared and 1 H nuclear magnetic resonance) properties and by its chemical degradation pattern. Aggregation of unilamellar NSPS‐liposomes was studied as a function of calcium and magnesium concentration. The ability of calcium and magnesium to induce vesicle aggregation is higher for phosphatidylserine (PS)‐liposomes (threshold concentration 1.5 mM for calcium and 4.6 mM for magnesium) than for NSPS‐liposomes (threshold concentration 2.8 mM for calcium and 6.6 mM for magnesium). The irreversibility of the aggregation reactions after adding EDTA suggests that vesicle fusion might occur in the presence of calcium and magnesium. Preliminary studies, based on mixing of both lipid and internal aqueous contents, show that fusion rather than aggregation of NSPS‐liposomes occurs in the presence of calcium ions. The tendency of NSPS‐liposomes to aggregate at higher cation concentrations than PS‐liposomes suggests that N ‐acylation of phosphatidylserine protects the membrane against degenerative damage caused by aggregation and fusion.