Compartmentalization of soluble endocytic proteins in synaptic vesicle clusters by phase separation

Synaptic vesicle (SV) clusters, which reportedly result from synapsin’s capacity to undergo liquid-liquid phase separation (LLPS), constitute the structural basis for neurotransmission. Although these clusters contain various endocytic accessory proteins, how endocytic proteins accumulate in SV clusters remains unknown. Here, we report that endophilin A1 (EndoA1), the endocytic scaffold protein, undergoes LLPS under physiologically relevant concentrations at presynaptic terminals. On heterologous expression, EndoA1 facilitates the formation of synapsin condensates and accumulates in SV-like vesicle clusters via synapsin. Moreover, EndoA1 condensates recruit endocytic proteins such as dynamin 1, amphiphysin, and intersectin 1, none of which are recruited in vesicle clusters by synapsin. In cultured neurons, like synapsin, EndoA1 is compartmentalized in SV clusters through LLPS, exhibiting activity-dependent dispersion/reassembly cycles. Thus, beyond its essential function in SV endocytosis, EndoA1 serves an additional structural function by undergoing LLPS, thereby accumulating various endocytic proteins in dynamic SV clusters in concert with synapsin. [Display omitted] •Endophilin A1 undergoes liquid-liquid phase separation in presynaptic terminals•EndoA1 condensates accumulate in SV-like clusters in a synapsin-dependent manner•EndoA1 condensates recruit various endocytic proteins into the condensed phase•EndoA1-synapsin condensates may maintain dynamic SV clusters with endocytic proteins Biological sciences; Molecular biology; Cell biology