Dynamin forms liquid-like condensates at synapses to support ultrafast endocytosis
Imoto, Y.; Ma, Y.; Itoh, K.; Blumrich, E.-M.; Matsubayashi, H. T.; Liu, J.; Wu, B.; Cousin, M. A.; Ha, T.; Inoue, T.; Watanabe, S.
Show abstract
Endocytosis at synapses is accelerated by the pre-accumulation of Dynamin 1xA at the endocytic zone by Syndapin 1. However, it is unclear how these proteins support the ultrafast kinetics of endocytosis. Here we report that these proteins phase separate at the presynaptic endocytic zone where ultrafast endocytosis takes place. Specifically, the proline-rich motif of Dynamin 1xA interacts with the Src-Homology 3 domain of Syndapin 1 and forms liquid-like condensates. Single-particle tracking of Dynamin 1xA molecules at synapses shows that their diffusion slows down substantially when they are in the condensates, indicating the presence of molecular crowding and intermolecular interaction. When Dynamin 1xA is mutated to disrupt its interaction with Syndapin 1 the condensates do not form. Thus, the liquid-like assembly of these endocytic proteins provides a catalytic platform for ultrafast endocytosis.
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