Wenk M R, Alt T, Seelig A, Seelig J
Department of Biophysical Chemistry, University of Basel, Switzerland.
Biophys J. 1997 Apr;72(4):1719-31. doi: 10.1016/S0006-3495(97)78818-0.
The interaction of the nonionic detergent octyl-beta-D-glucopyranoside (OG) with lipid bilayers was studied with high-sensitivity isothermal titration calorimetry (ITC) and solid-state 2H-NMR spectroscopy. The transfer of OG from the aqueous phase to lipid bilayers composed of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) can be investigated by employing detergent at concentrations below the critical micellar concentration; it can be defined by a surface partition equilibrium with a partition coefficient of K = 120 +/- 10 M-1, a molar binding enthalpy of delta H degrees D = 1.3 +/- 0.15 kcal/mol, and a free energy of binding of delta G degrees D = -5.2 kcal/mol. The heat of transfer is temperature dependent, with a molar heat capacity of delta CP = -75 cal K-1 mol-1. The large heat capacity and the near-zero delta H are typical for a hydrophobic binding equilibrium. The partition constant K decreased to approximately 100 M-1 for POPC membranes mixed with either negatively charged lipids or cholesterol, but was independent of membrane curvature. In contrast, a much larger variation was observed in the partition enthalpy. delta H degrees D increased by about 50% for large vesicles and by 75% for membranes containing 50 mol% cholesterol. Structural changes in the lipid bilayer were investigated with solid-state 2H-NMR. POPC was selectively deuterated at the headgroup segments and at different positions of the fatty acyl chains, and the measurement of the quadrupolar splittings provided information on the conformation and the order of the bilayer membrane. Addition of OG had almost no influence on the lipid headgroup region, even at concentrations close to bilayer disruption. In contrast, the fluctuations of fatty acyl chain segments located in the inner part of the bilayer increased strongly with increasing OG concentration. The 2H-NMR results demonstrate that the headgroup region is the most stable structural element of the lipid membrane, remaining intact until the disordering of the chains reaches a critical limit. The perturbing effect of OG is thus different from that of another nonionic detergent, octaethyleneglycol mono-n-dodecylether (C12E8), which produces a general disordering at all levels of the lipid bilayer. The OG-POPC interaction was also investigated with POPC monolayers, using a Langmuir trough. In the absence of lipid, the measurement of the Gibbs adsorption isotherm for pure OG solutions yielded an OG surface area of AS = 51 +/- 3 A2. On the other hand, the insertion area AI of OG in a POPC monolayer was determined by a monolayer expansion technique as AI = 58 +/- 10 A2. The similar area requirements with AS approximately AI indicate an almost complete insertion of OG into the lipid monolayer. The OG partition constant for a POPC monolayer at 32 mN/m was Kp approximately 320 M-1 and thus was larger than that for a POPC bilayer.
采用高灵敏度等温滴定量热法(ITC)和固态2H-核磁共振波谱法研究了非离子型去污剂辛基-β-D-吡喃葡萄糖苷(OG)与脂质双层的相互作用。通过使用浓度低于临界胶束浓度的去污剂,可以研究OG从水相转移到由1-棕榈酰-2-油酰基-sn-甘油-3-磷酸胆碱(POPC)组成的脂质双层的过程;这可以由表面分配平衡来定义,其分配系数K = 120±10 M-1,摩尔结合焓ΔH°D = 1.3±0.15 kcal/mol,结合自由能ΔG°D = -5.2 kcal/mol。转移热与温度有关,摩尔热容ΔCP = -75 cal K-1 mol-1。大的热容和接近零的ΔH是疏水结合平衡的典型特征。对于与带负电荷的脂质或胆固醇混合的POPC膜,分配常数K降至约100 M-1,但与膜曲率无关。相比之下,在分配焓中观察到更大的变化。对于大囊泡,ΔH°D增加约50%,对于含有50 mol%胆固醇的膜,增加75%。用固态2H-核磁共振研究了脂质双层中的结构变化。POPC在头部基团片段和脂肪酰链的不同位置被选择性氘代,四极分裂的测量提供了关于双层膜的构象和有序性的信息。即使在接近双层破坏的浓度下,添加OG对脂质头部基团区域几乎没有影响。相反,随着OG浓度的增加,位于双层内部的脂肪酰链段的波动强烈增加。2H-核磁共振结果表明,头部基团区域是脂质膜中最稳定的结构元素,直到链的无序达到临界极限才保持完整。因此,OG的扰动效应与另一种非离子型去污剂八乙二醇单正十二烷基醚(C12E8)不同,后者在脂质双层的所有层面上都会产生普遍的无序。还使用Langmuir槽用POPC单层研究了OG-POPC相互作用。在没有脂质的情况下,对纯OG溶液的吉布斯吸附等温线的测量得出OG的表面积AS = 51±3 Å2。另一方面,通过单层膨胀技术确定OG在POPC单层中的插入面积AI为AI = 58±10 Å2。AS≈AI的相似面积需求表明OG几乎完全插入脂质单层中。在32 mN/m下,POPC单层的OG分配常数Kp约为320 M-1,因此大于POPC双层的分配常数。
