完整突触体的钙离子转运。突触体内的区室化及线粒体膜电位的作用。
Calcium-ion transport by intact synaptosomes. Intrasynaptosomal compartmentation and the role of the mitochondrial membrane potential.
作者信息
Scott I D, Akerman K E, Nicholls D G
出版信息
Biochem J. 1980 Dec 15;192(3):873-80. doi: 10.1042/bj1920873.
Abstract
The association of Ca2+ with isolated nerve endings (synaptosomes) is investigated and resolved into two components, that bound to the outer surface of the plasma membrane and that transported across the plasma membrane. When synaptosomes are added directly to a Ca2+-containing medium, there is an initial rapid uptake of Ca2+ across the plasma membrane, followed by a slow uptake that proceeds for 20 min. The rapid phase is not observed if the synaptosomes are initially pre-incubated in a Ca2+-free medium. Rapid disruption of synaptosomes reveals that less than 3 nmol of transported Ca2+ per mg of synaptosomal protein can be ascribed to non-mitochondrial components, whereas the remainder, up to 79% of the total, is further transported into the mitochondrial matrix. Abolition of oxidative phosphorylation while the mitochondrial membrane potential is retained leads to a time-dependent increase in transported Ca2+, whereas abolition of the mitochondrial membrane potential decreases both plasma-membrane transport and accumulation of Ca2+ in the mitochondrial matrix. It is concluded that intrasynaptosomal mitochondria are major regulators of synaptosomal Ca2+.
摘要
研究了钙离子与分离的神经末梢(突触体)的结合情况,并将其分为两个部分,一部分与质膜外表面结合,另一部分穿过质膜进行转运。当突触体直接添加到含钙离子的培养基中时,最初会有钙离子快速穿过质膜摄取,随后是持续20分钟的缓慢摄取。如果突触体最初在无钙培养基中预孵育,则不会观察到快速摄取阶段。突触体的快速破坏表明,每毫克突触体蛋白中运输的钙离子少于3纳摩尔可归因于非线粒体成分,而其余部分,高达总量的79%,会进一步运输到线粒体基质中。在保留线粒体膜电位的同时废除氧化磷酸化会导致运输的钙离子随时间增加,而废除线粒体膜电位会降低质膜运输和钙离子在线粒体基质中的积累。得出的结论是,突触体内的线粒体是突触体钙离子的主要调节因子。
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