Abstract

Synucleinopathies form a group of neurodegenerative diseases defined by misfolding and aggregation of alpha-synuclein (-syn). Abnormal accumulation and spreading of -syn aggregates lead to synapse dysfunction and neuronal cell death. Yet, little is known about synaptic mechanisms underlying -syn pathology. Here we identified {beta}-isoforms of neurexins ({beta}-NRXs) as presynaptic organizing proteins that interact with -syn preformed fibrils (-syn PFFs), toxic -syn aggregates, but not -syn monomers. Our cell surface protein binding assays and surface plasmon resonance assays reveal that -syn PFFs bind directly to {beta}-NRX through their N-terminal histidine-rich domain (HRD) at nanomolar range (Kd: ~500 nM monomer equivalent). Furthermore, our artificial synapse formation assays show that -syn PFFs diminish excitatory and inhibitory presynaptic organization induced by a specific isoform of neuroligin 1 that binds only {beta}-NRXs, but not -isoforms of neurexins. Thus, our data suggest that -syn PFFs interact with {beta}-NRXs to inhibit {beta}-NRX-mediated presynaptic organization, providing novel molecular insight into how -syn PFFs induce synaptic pathology in synucleinopathies such as Parkinsons disease and dementia with Lewy bodies.