内收蛋白作为一种膜弯曲分子,通过胞吐作用被递送到内吞区。
Endophilin functions as a membrane-bending molecule and is delivered to endocytic zones by exocytosis.
机构信息
Department of Molecular Biology, Massachusetts General Hospital, Boston, MA 02114, USA.
出版信息
Cell. 2010 Oct 29;143(3):430-41. doi: 10.1016/j.cell.2010.09.024.
Abstract
Two models have been proposed for endophilin function in synaptic vesicle (SV) endocytosis. The scaffolding model proposes that endophilin's SH3 domain recruits essential endocytic proteins, whereas the membrane-bending model proposes that the BAR domain induces positively curved membranes. We show that mutations disrupting the scaffolding function do not impair endocytosis, whereas those disrupting membrane bending cause significant defects. By anchoring endophilin to the plasma membrane, we show that endophilin acts prior to scission to promote endocytosis. Despite acting at the plasma membrane, the majority of endophilin is targeted to the SV pool. Photoactivation studies suggest that the soluble pool of endophilin at synapses is provided by unbinding from the adjacent SV pool and that the unbinding rate is regulated by exocytosis. Thus, endophilin participates in an association-dissociation cycle with SVs that parallels the cycle of exo- and endocytosis. This endophilin cycle may provide a mechanism for functionally coupling endocytosis and exocytosis.
摘要
两种模型被提出用于解释衔接蛋白在突触小泡(SV)内吞作用中的功能。支架模型提出,衔接蛋白的 SH3 结构域招募了必需的内吞作用蛋白,而膜弯曲模型提出 BAR 结构域诱导了正曲率的膜。我们发现,破坏支架功能的突变不会损害内吞作用,而破坏膜弯曲的突变则会导致明显的缺陷。通过将衔接蛋白锚定在质膜上,我们发现衔接蛋白在分裂之前发挥作用,以促进内吞作用。尽管在质膜上发挥作用,但衔接蛋白的大部分被靶向到 SV 池。光激活研究表明,突触处可溶衔接蛋白池是通过从相邻的 SV 池解联而提供的,而解联速率受胞吐作用调节。因此,衔接蛋白与 SV 之间的结合-解离循环与胞吐和内吞作用的循环平行。这种衔接蛋白循环可能为内吞作用和胞吐作用的功能偶联提供了一种机制。
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