Royle Stephen J, Lagnado Leon
MRC Laboratory of Molecular Biology, Hills Road, Cambridge CB2 2QH, UK.
J Physiol. 2003 Dec 1;553(Pt 2):345-55. doi: 10.1113/jphysiol.2003.049221. Epub 2003 Sep 8.
Exocytosis of neurotransmitter from a synaptic vesicle is followed by efficient retrieval of its constituent membrane and proteins. Real-time measurements indicate that fast and slow modes of retrieval operate in parallel at a number of presynaptic terminals. Two mechanisms can be distinguished by electron microscopy: clathrin-mediated retrieval of small vesicles and bulk retrieval of large cisternae. Methods that investigate the behaviour of individual vesicles have recently demonstrated a third route of retrieval: the rapid reversal of a pore-like connection between the vesicle and surface ('kiss-and-run'). Key aims for the future are to identify the molecules underlying different mechanisms of endocytosis at the synapse and the signals that select between them.
神经递质从突触小泡中胞吐释放后,其组成性膜和蛋白质会被有效回收。实时测量表明,在许多突触前终末,快速和慢速回收模式并行运作。通过电子显微镜可区分两种机制:网格蛋白介导的小泡回收和大池的批量回收。最近,研究单个小泡行为的方法揭示了第三种回收途径:小泡与表面之间类似孔的连接快速逆转(“亲吻-逃离”)。未来的主要目标是确定突触处不同内吞作用机制背后的分子以及在这些机制之间进行选择的信号。