Träuble H, Eibl H
Proc Natl Acad Sci U S A. 1974 Jan;71(1):214-9. doi: 10.1073/pnas.71.1.214.
Ordered --> fluid phase transitions in bilayers of charged lipids are accompanied by a decrease in electrostatic free energy mainly as a result of bilayer expansion. For uniform charge distribution the Gouy-Chapman theory of the electrical double layer predicts a decrease of the transition temperature with increasing charge density. We studied the effects of pH and mono- and divalent cations on the phase transition of lecithin, cephalin, phosphatidylserine, and phosphatidic acid bilayers. Phosphatidic acid with two ionizable protons was selected for a systematic investigation. A change in pH from 7 to 9 increases the charge per polar group from one to two elementary charges. This lowers the transition temperature by about 20 degrees C in agreement with the theory. In this pH region rather small changes in pH suffice to induce the phase transition at constant temperature. Divalent cations (Mg(++) and Ca(++)) increase the transition temperature by charge neutralization and thus can be used to induce the fluid --> ordered transition at constant temperature. In contrast, monovalent cations (Li(+), Na(+), K(+)) lower the transition temperature, or fluidize the bilayer structure at a given temperature. Rather small changes in ionic environment can induce gross alterations in bilayer structure; divalent and monovalent cations have antagonistic effects. This result parallels current theories on nerve excitation and sensory transduction where cation-induced structural changes in biomembranes are invoked.
带电荷脂质双层中有序到液相的转变伴随着静电自由能的降低,这主要是双层膨胀的结果。对于均匀电荷分布,电双层的古依-查普曼理论预测,随着电荷密度的增加,转变温度会降低。我们研究了pH值以及单价和二价阳离子对卵磷脂、脑磷脂、磷脂酰丝氨酸和磷脂酸双层相变的影响。选择具有两个可电离质子的磷脂酸进行系统研究。pH值从7变为9会使每个极性基团的电荷从一个基本电荷增加到两个基本电荷。这与理论相符,使转变温度降低约20℃。在这个pH范围内,pH值相当小的变化就足以在恒定温度下诱导相变。二价阳离子(Mg(++)和Ca(++))通过电荷中和提高转变温度,因此可用于在恒定温度下诱导从流体到有序的转变。相反,单价阳离子(Li(+)、Na(+)、K(+))会降低转变温度,或在给定温度下使双层结构流化。离子环境相当小的变化就能引起双层结构的显著改变;二价和单价阳离子具有拮抗作用。这一结果与当前关于神经兴奋和感觉转导的理论相似,在这些理论中涉及阳离子诱导生物膜结构变化的内容。