Polozov I V, Anantharamaiah G M, Segrest J P, Epand R M
Department of Biochemistry, McMaster University Health Sciences Center, Hamilton, Ontario L8N 3Z5, Canada.
Biophys J. 2001 Aug;81(2):949-59. doi: 10.1016/S0006-3495(01)75753-0.
The mechanism of action of lytic peptides on membranes is widely studied and is important in view of potential medical applications. Previously (I. V. Polozov, A. I. Polozova, E. M. Tytler, G. M. Anantharamaiah, J. P. Segrest, G. A. Woolley, and R. M., Biochemistry, 36:9237--9245) we analyzed the mechanism of membrane permeabilization by 18L, the archetype lytic peptide featuring the class L amphipathic alpha-helix, according to the classification of Segrest et al. (J. P. Segrest, G. de Loof, J. G. Dohlman, C. G. Brouillette, and G. M. Anantharamaiah, 1990, Proteins, 8:103--117). We concluded that the 18L peptide destabilizes membranes, leading to a transient formation of large defects that result in contents leakage and, in the presence of bilayer-bilayer contact, could lead to vesicle fusion. Here we report that this defect formation is strongly enhanced by the membrane tension induced by osmotic swelling of vesicles. Even below standard leakage-inducing peptide/lipid ratios, membrane resistance to osmotic tension drops from hundreds to tens of milliosmoles. The actual decrease is dependent on the peptide/lipid ratio and on the type of lipid. We propose that under membrane tension a peptidic pore serves as a nucleation site for the transient formation of a lipidic pore. The tension is released upon pore expansion with inclusion of more peptides and lipids into the pore lining. This tension modulation of leakage was observed for other class L peptides (mastoparan, K18L) and thus may be of general applicability for the action of membrane active lytic peptides.
溶菌肽对细胞膜的作用机制已得到广泛研究,鉴于其潜在的医学应用,这一机制具有重要意义。此前(I. V. 波洛佐夫、A. I. 波洛佐娃、E. M. 泰勒、G. M. 阿南塔拉马亚、J. P. 塞格斯特、G. A. 伍利和R. M.,《生物化学》,36:9237 - 9245),我们根据塞格斯特等人(J. P. 塞格斯特、G. 德洛夫、J. G. 多尔曼、C. G. 布鲁耶特和G. M. 阿南塔拉马亚,1990年,《蛋白质》,8:103 - 117)的分类方法,分析了18L(具有L类两亲性α螺旋的典型溶菌肽)使细胞膜通透化的机制。我们得出结论,18L肽会使细胞膜不稳定,导致形成短暂的大缺陷,从而导致内容物泄漏,并且在双层膜相互接触的情况下,可能导致囊泡融合。在此我们报告,囊泡渗透肿胀所诱导的膜张力会强烈增强这种缺陷的形成。即使在低于标准的诱导泄漏肽/脂质比例下,膜对渗透压的抵抗力也会从数百毫渗降至数十毫渗。实际的降低程度取决于肽/脂质比例以及脂质类型。我们提出,在膜张力作用下,肽孔作为脂质孔短暂形成的成核位点。随着更多的肽和脂质纳入孔壁,孔扩张时张力得以释放。对于其他L类肽(mastoparan、K18L)也观察到了这种泄漏的张力调节作用,因此这可能普遍适用于膜活性溶菌肽的作用。