Cheng K H, Virtanen J, Somerharju P
Department of Physics, Texas Tech University, Lubbock, Texas 79409, USA.
Biophys J. 1999 Dec;77(6):3108-19. doi: 10.1016/S0006-3495(99)77141-9.
Our previous fluorescence study has provided indirect evidence that lipid headgroup components tend to adopt regular, superlattice-like lateral distribution in fluid phosphatidylethanolamine/phosphatidylcholine (PE/PC) bilayers (, Biophys. J. 73:1967-1976). Here we have further studied this intriguing phenomenon by making use of the fluorescence properties of a sterol probe, dehydroergosterol (DHE). Fluorescence emission spectra, fluorescence anisotropy (r), and time-resolved fluorescence intensity decays of DHE in 1-palmitoyl-2-oleoyl-PC (POPC)/1-palmitoyl-2-oleoyl-PE (POPE) mixtures were measured as a function of POPE mole fraction (X(PE)) at 23 degrees C. Deviations, including dips or kinks, in the ratio of fluorescence peak intensity at 375 nm/fluorescence peak intensity at 390 nm (I(375)/I(390)), fluorescence decay lifetime (tau), or rotational correlation time (rho) of DHE versus PE composition plots were found at X(PE) approximately 0.10, 0.25, 0.33, 0.65, 0.75, and 0.88. The critical values at X(PE) approximately 0.33 and 0.65 were consistently observed for all measured parameters. In addition, the locations, but not the depth, of the dips for X(PE) < 0.50 did not vary significantly over 10 days of annealing at 23 degrees C. The observed critical values of X(PE) coincide (within +/-0.03) with some of the critical mole fractions predicted by a headgroup superlattice model proposing that the PE and PC headgroups tend to be regularly distributed in the plane of the bilayer. These results agree favorably with those obtained in our previous fluorescence study using dipyrenylPC and Laurdan probes and thus support the proposition that 1) regular arrangement within a domain exists in fluid PE/PC bilayers, and 2) superlattice formation may play a significant role in controlling the lipid composition of cellular membranes (, Proc. Natl. Acad. Sci. USA. 95:4964-4969). The present data provide new information on the physical properties of such superlattice domains, i.e., the dielectric environment and rotational motion of membrane sterols appear to change abruptly as the lipid headgroups exhibit regular superlattice-like distributions in fluid bilayers.
我们之前的荧光研究提供了间接证据,表明在流体磷脂酰乙醇胺/磷脂酰胆碱(PE/PC)双层膜中,脂质头部基团成分倾向于呈现规则的、类似超晶格的横向分布(《生物物理杂志》73:1967 - 1976)。在此,我们利用甾醇探针脱氢麦角固醇(DHE)的荧光特性进一步研究了这一有趣现象。在23℃下,测量了DHE在1 - 棕榈酰 - 2 - 油酰 - PC(POPC)/1 - 棕榈酰 - 2 - 油酰 - PE(POPE)混合物中的荧光发射光谱、荧光各向异性(r)以及时间分辨荧光强度衰减,作为POPE摩尔分数(X(PE))的函数。在X(PE)约为0.10、0.25、0.33、0.65、0.75和0.88时,发现DHE的375nm处荧光峰强度与390nm处荧光峰强度之比(I(375)/I(390))、荧光衰减寿命(tau)或旋转相关时间(rho)相对于PE组成的曲线存在偏差,包括下降或转折。对于所有测量参数,在X(PE)约为0.33和0.65时的临界值始终能观察到。此外,对于X(PE) < 0.50的下降位置(而非深度),在23℃下退火10天内没有显著变化。观察到的X(PE)临界值与头部基团超晶格模型预测的一些临界摩尔分数相符(偏差在±0.03以内),该模型提出PE和PC头部基团倾向于在双层膜平面内规则分布。这些结果与我们之前使用双芘基PC和劳丹探针进行的荧光研究结果非常吻合,因此支持以下观点:1)在流体PE/PC双层膜中存在区域内的规则排列;2)超晶格形成可能在控制细胞膜脂质组成方面发挥重要作用(《美国国家科学院院刊》95:4964 - 4969)。目前的数据提供了关于此类超晶格区域物理性质的新信息,即随着脂质头部基团在流体双层膜中呈现规则的类似超晶格的分布,膜甾醇的介电环境和旋转运动似乎会突然改变。