| Literature DB >> 35809574 |
Yuuta Imoto1, Sumana Raychaudhuri2, Ye Ma3, Pascal Fenske4, Eduardo Sandoval2, Kie Itoh2, Eva-Maria Blumrich5, Hideaki T Matsubayashi6, Lauren Mamer4, Fereshteh Zarebidaki4, Berit Söhl-Kielczynski4, Thorsten Trimbuch4, Shraddha Nayak7, Janet H Iwasa7, Jian Liu8, Bin Wu9, Taekjip Ha10, Takanari Inoue6, Erik M Jorgensen11, Michael A Cousin5, Christian Rosenmund12, Shigeki Watanabe13.
Abstract
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.Entities:
Keywords: Dyn1xA; Dynamin; Dynamin splice variants; Syndapin; endocytosis; flash-and-freeze; liquid condensates; phase separation; synaptic vesicle recycling; ultrafast endocytosis
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Year: 2022 PMID: 35809574 PMCID: PMC9464723 DOI: 10.1016/j.neuron.2022.06.010
Source DB: PubMed Journal: Neuron ISSN: 0896-6273 Impact factor: 18.688