Lange Yvonne, Steck Theodore L
Department of Pathology, Rush University Medical Center, Chicago, IL 60612, United States.
Prog Lipid Res. 2008 Sep;47(5):319-32. doi: 10.1016/j.plipres.2008.03.001. Epub 2008 Mar 29.
We review evidence that sterols can form stoichiometric complexes with certain bilayer phospholipids, and sphingomyelin in particular. These complexes appear to be the basis for the formation of condensed and ordered liquid phases, (micro)domains and/or rafts in both artificial and biological membranes. The sterol content of a membrane can exceed the complexing capacity of its phospholipids. The excess, uncomplexed membrane sterol molecules have a relatively high escape tendency, also referred to as fugacity or chemical activity (and, here, simply activity). Cholesterol is also activated when certain membrane intercalating amphipaths displace it from the phospholipid complexes. Active cholesterol projects from the bilayer and is therefore highly susceptible to attack by cholesterol oxidase. Similarly, active cholesterol rapidly exits the plasma membrane to extracellular acceptors such as cyclodextrin and high-density lipoproteins. For the same reason, the pool of cholesterol in the ER (endoplasmic reticulum) increases sharply when cell surface cholesterol is incremented above the physiological set-point; i.e., equivalence with the complexing phospholipids. As a result, the escape tendency of the excess cholesterol not only returns the plasma membrane bilayer to its set-point but also serves as a feedback signal to intracellular homeostatic elements to down-regulate cholesterol accretion.
我们回顾了相关证据,即甾醇可与某些双层磷脂,尤其是鞘磷脂形成化学计量复合物。这些复合物似乎是人工膜和生物膜中凝聚相和有序液相、(微)结构域和/或脂筏形成的基础。膜中的甾醇含量可能超过其磷脂的络合能力。过量的、未络合的膜甾醇分子具有相对较高的逃逸倾向,也称为逸度或化学活性(在此简称为活性)。当某些膜插入性两亲分子将胆固醇从磷脂复合物中置换出来时,胆固醇也会被激活。活性胆固醇从双层中突出,因此极易受到胆固醇氧化酶的攻击。同样,活性胆固醇会迅速从质膜释放到细胞外受体,如环糊精和高密度脂蛋白。出于同样的原因,当细胞表面胆固醇增加到高于生理设定点(即与络合磷脂相当)时,内质网中的胆固醇池会急剧增加。结果,过量胆固醇的逃逸倾向不仅使质膜双层恢复到其设定点,还作为反馈信号传递给细胞内稳态元件,以下调胆固醇的积累。