Valtorta F, Jahn R, Fesce R, Greengard P, Ceccarelli B
Department of Medical Pharmacology, University of Milan, Italy.
J Cell Biol. 1988 Dec;107(6 Pt 2):2717-27. doi: 10.1083/jcb.107.6.2717.
Recycling of synaptophysin (p38), a synaptic vesicle integral membrane protein, was studied by the use of antisera raised against the protein purified from frog brain. When frog cutaneous pectoris muscles were fixed at rest, a bright, specific immunofluorescent signal was observed in nerve-terminal regions only if their plasma membranes had been previously permeabilized. When muscles were fixed after they had been treated for 1 h with a low dose of alpha-latrotoxin in Ca2+-free medium, an equally intense fluorescence could be observed without previous permeabilization. Under this condition, alpha-latrotoxin depletes nerve terminals of their quantal store of acetylcholine and of synaptic vesicles. These results indicate that fusion of synaptic vesicles leads to the exposure of intravesicular antigenic determinants of synaptophysin on the outer surface of the axolemma, and provide direct support for the vesicle hypothesis of neurotransmitter release. After 1 h treatment with the same dose of alpha-latrotoxin in the presence of 1.8 mM extracellular Ca2+, immunofluorescent images were obtained only after permeabilization with detergents. Under this condition, the vesicle population was maintained by an active process of recycling and more than two times the initial store of quanta were secreted. Thus, despite the active turnover of synaptic vesicles and of quanta of neurotransmitter, no extensive intermixing occurs between components of the vesicle and presynaptic plasma membrane.
通过使用针对从蛙脑中纯化的突触素(p38)(一种突触小泡整合膜蛋白)制备的抗血清,研究了该蛋白的再循环情况。当蛙胸皮肌在静息状态下固定时,仅在其质膜先前已通透化的情况下,才在神经末梢区域观察到明亮的特异性免疫荧光信号。当肌肉在无钙培养基中用低剂量的α-银环蛇毒素处理1小时后固定时,无需预先通透化就能观察到同样强烈的荧光。在这种情况下,α-银环蛇毒素耗尽了神经末梢中乙酰胆碱和突触小泡的量子储存。这些结果表明,突触小泡的融合导致突触素的囊泡内抗原决定簇暴露于轴膜外表面,并为神经递质释放的囊泡假说提供了直接支持。在存在1.8 mM细胞外钙的情况下,用相同剂量的α-银环蛇毒素处理1小时后,仅在用去污剂通透化后才能获得免疫荧光图像。在这种情况下,囊泡群体通过活跃的再循环过程得以维持,并且分泌的量子初始储存量超过两倍。因此,尽管突触小泡和神经递质量子有活跃的周转,但囊泡和突触前质膜的成分之间不会发生广泛的混合。