Department of Cell Biology, Johns Hopkins University, Baltimore, MD 21205, USA.
Department of Cell Biology, Johns Hopkins University, Baltimore, MD 21205, USA.
Neuron. 2022 Sep 7;110(17):2815-2835.e13. doi: 10.1016/j.neuron.2022.06.010. Epub 2022 Jul 8.
Dynamin mediates fission of vesicles from the plasma membrane during endocytosis. Typically, dynamin is recruited from the cytosol to endocytic sites, requiring seconds to tens of seconds. However, ultrafast endocytosis in neurons internalizes vesicles as quickly as 50 ms during synaptic vesicle recycling. Here, we demonstrate that Dynamin 1 is pre-recruited to endocytic sites for ultrafast endocytosis. Specifically, Dynamin 1xA, a splice variant of Dynamin 1, interacts with Syndapin 1 to form molecular condensates on the plasma membrane. Single-particle tracking of Dynamin 1xA molecules confirms the liquid-like property of condensates in vivo. When Dynamin 1xA is mutated to disrupt its interaction with Syndapin 1, the condensates do not form, and consequently, ultrafast endocytosis slows down by 100-fold. Mechanistically, Syndapin 1 acts as an adaptor by binding the plasma membrane and stores Dynamin 1xA at endocytic sites. This cache bypasses the recruitment step and accelerates endocytosis at synapses.
动力蛋白在胞吞作用期间介导从质膜上分裂小泡。通常,动力蛋白从细胞质招募到胞吞部位,需要几秒钟到几十秒钟。然而,神经元中的超快胞吞作用在突触小泡再循环期间以快至 50ms 的速度内化小泡。在这里,我们证明动力蛋白 1 预先募集到用于超快胞吞作用的胞吞部位。具体而言,动力蛋白 1 的剪接变体 Dynamin 1xA 与 Syndapin 1 相互作用,在质膜上形成分子凝聚物。动力蛋白 1xA 分子的单颗粒追踪证实了凝聚物在体内的液态性质。当 Dynamin 1xA 发生突变以破坏其与 Syndapin 1 的相互作用时,凝聚物不会形成,因此,超快胞吞作用的速度减慢 100 倍。在机制上, Syndapin 1 作为一种衔接蛋白发挥作用,通过结合质膜并将 Dynamin 1xA 储存在胞吞部位。这种缓存绕过了招募步骤,加速了突触处的胞吞作用。