Instituto de Física, Universidade de São Paulo, São Paulo, Brazil.
Chem Phys Lipids. 2012 Feb;165(2):169-77. doi: 10.1016/j.chemphyslip.2011.12.007. Epub 2011 Dec 20.
Aqueous dispersions of dimyristoyl phosphatidylglycerol (DMPG), at low ionic strength, display uncommon thermal behavior. Models for such behavior need to assign a form to the lipid aggregate. Although most studies accept the presence of lipid vesicles in the lipid gel and fluid phases, this is still controversial. With electron spin resonance (ESR) spectra of spin labels incorporated into DMPG aggregates, quantification of [(14)C]sucrose entrapped by the aggregates, and viscosity measurements, we demonstrate the existence of leaky vesicles in dispersions of DMPG at low ionic strength, in both gel and fluid phases of the lipid. As a control system, the ubiquitous lipid dimyristoyl phosphatidylcholine (DMPC) was used. For DMPG in the gel phase, spin labeling only indicated the presence of lipid bilayers, strongly suggesting that DMPG molecules are organized as vesicles and not micelles or bilayer fragments (bicelles), as the latter has a non-bilayer structure at the edges. Quantification of [(14)C]sucrose entrapping by DMPG aggregates revealed the presence of highly leaky vesicles. Due to the short hydrocarbon chains ((14)C atoms), DMPC vesicles were also found to be partially permeable to sucrose, but not as much as DMPG vesicles. Viscosity measurements, with the calculation of the intrinsic viscosity of the lipid aggregate, showed that DMPG vesicles are rather similar in the gel and fluid phases, and quite different from aggregates observed along the gel-fluid transition. Taken together, our data strongly supports that DMPG forms leaky vesicles at both gel and fluid phases.
在低离子强度下,二肉豆蔻酰磷脂酰甘油(DMPG)的水基分散体表现出异常的热行为。这种行为的模型需要为脂质聚集体赋予一种形式。尽管大多数研究都接受脂质囊泡在脂质凝胶和流动相中的存在,但这仍然存在争议。通过将自旋标记物掺入 DMPG 聚集体的电子自旋共振(ESR)谱、对聚集体包裹的 [(14)C]蔗糖的定量以及粘度测量,我们证明了在低离子强度下 DMPG 分散体中存在渗漏囊泡,无论是在脂质的凝胶相还是流动相。作为对照系统,使用了无处不在的脂质二肉豆蔻酰磷脂酰胆碱(DMPC)。对于凝胶相中的 DMPG,自旋标记仅表明存在脂质双层,强烈表明 DMPG 分子以囊泡的形式存在,而不是胶束或双层片段(双体),因为后者在边缘具有非双层结构。DMPG 聚集体包裹的 [(14)C]蔗糖的定量揭示了高度渗漏囊泡的存在。由于短的烃链((14)C 原子),DMPC 囊泡也被发现对蔗糖具有一定的渗透性,但不如 DMPG 囊泡那么大。粘度测量,结合脂质聚集体的固有粘度计算,表明 DMPG 囊泡在凝胶相和流动相中的性质非常相似,与凝胶-流动转变过程中观察到的聚集体明显不同。综上所述,我们的数据强烈支持 DMPG 在凝胶相和流动相都形成渗漏囊泡。
