AG Funktionelle Zellbiologie, Institut für Integrative Neuroanatomie, Charité Centrum 2 für Grundlagenmedizin, Berlin, Germany.
J Neurochem. 2011 May;117(4):757-64. doi: 10.1111/j.1471-4159.2011.07247.x. Epub 2011 Apr 6.
Snake neurotoxic phospholipases (SPAN) exclusively affect pre-synaptic nerve terminals where they lead to a block of neurotransmission by not fully understood mechanisms. Here, we report that the SPANs, taipoxin and paradoxin, in nanomolar concentrations directly dissociate the synaptophysin/synaptobrevin (Syp/Syb) complex on isolated synaptic vesicles in the presence of synaptosomal cytosol. The phospholipase activity of SPANs depends on Ca(2+) but the dissociation of the Syp/Syb complex does not require Ca(2+). Ca(2+) (100 μM free) alone also dissociates the Syp/Syb complex in the presence of cytosol. Treatment with SPANs disturbs the lipid raft association of synaptophysin and synaptobrevin comparable to cholesterol depletion by β-methyl-cyclodextrin while Ca(2+) alone has no effect. SPANs but not Ca(2+) directly inhibit vesicular uptake of serotonin and glutamate. It is concluded that SPANs directly affect vesicular properties independent from their Ca(2+) -dependent phospholipase activity. SPANs and Ca(2+) dissociate the Syp/Syb complex as a prerequisite for exocytosis. SPANs also prevent the filling of synaptic vesicles thereby adding to the inhibition of neurotransmission.
蛇神经毒素磷脂酶(SPAN)专门作用于突触前神经末梢,通过尚未完全阐明的机制导致神经递质传递受阻。在这里,我们报告说,SPAN 毒素 taipoxin 和 paradoxin 在纳米摩尔浓度下,在突触体细胞质存在的情况下,直接使分离的突触小泡上的突触小体蛋白/突触融合蛋白(Syp/Syb)复合物解离。SPAN 的磷脂酶活性依赖于 Ca(2+),但 Syp/Syb 复合物的解离不需要 Ca(2+)。在细胞质存在的情况下,Ca(2+)(游离浓度为 100 μM)也能使 Syp/Syb 复合物解离。SPAN 处理会干扰突触小体蛋白和突触融合蛋白与脂筏的结合,类似于β-甲基-环糊精耗竭胆固醇,而 Ca(2+) 单独作用则没有影响。SPAN 可以直接抑制神经递质 5-羟色胺和谷氨酸的囊泡摄取,而 Ca(2+) 则没有这种作用。结论是,SPAN 独立于其 Ca(2+)-依赖性磷脂酶活性直接影响囊泡特性。SPAN 和 Ca(2+) 解离 Syp/Syb 复合物是胞吐作用的前提。SPAN 还可以防止突触小泡的填充,从而进一步抑制神经递质的传递。
