复合蛋白构象的改变是突触融合蛋白触发突触融合所必需的。
A conformational switch in complexin is required for synaptotagmin to trigger synaptic fusion.
机构信息
Department of Cell Biology, Yale University School of Medicine, New Haven, Connecticut, USA.
出版信息
Nat Struct Mol Biol. 2011 Jul 24;18(8):934-40. doi: 10.1038/nsmb.2103.
Abstract
The crystal structure of complexin bound to a prefusion SNAREpin mimetic shows that the accessory helix extends away from the SNAREpin in an 'open' conformation, binding another SNAREpin and inhibiting its assembly, to clamp fusion. In contrast, the accessory helix in the postfusion complex parallels the SNARE complex in a 'closed' conformation. Here we use targeted mutations, FRET spectroscopy and a functional assay that reconstitutes Ca(2+)-triggered exocytosis to show that the conformational switch from open to closed in complexin is needed for synaptotagmin-Ca(2+) to trigger fusion. Triggering fusion requires the zippering of three crucial aspartate residues in the switch region (residues 64-68) of v-SNARE. Conformational switching in complexin is integral to clamp release and is probably triggered when its accessory helix is released from its trans-binding to the neighboring SNAREpin, allowing the v-SNARE to complete zippering and open a fusion pore.
摘要
复合蛋白与融合前 SNARE 模拟物结合的晶体结构表明,辅助螺旋以“开放”构象远离 SNARE 模拟物延伸,结合另一个 SNARE 模拟物并抑制其组装,以夹闭融合。相比之下,融合后的复合物中的辅助螺旋以“闭合”构象与 SNARE 复合物平行。在这里,我们使用靶向突变、FRET 光谱和一种功能测定,该测定重新构建了 Ca(2+)触发的胞吐作用,表明复合蛋白从开放到闭合的构象转变对于突触融合蛋白-Ca(2+)触发融合是必需的。触发融合需要在开关区(残基 64-68)中的三个关键天冬氨酸残基(residues 64-68)的 zippering。复合蛋白中的构象转换是夹闭释放所必需的,当其辅助螺旋从与相邻 SNARE 模拟物的跨结合释放时,可能会触发构象转换,从而允许 v-SNARE 完成 zippering 并打开融合孔。
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