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Neuroligin-3 and neuroligin-4X form nanoscopic clusters and regulate growth cone organization and size

Nicholas J. F. Gatford, P. J. Michael Deans, Rodrigo R. R. Duarte, George Chennell, Katherine J. Sellers, Pooja Raval, Deepak P. Srivastava

2021Human Molecular Genetics14 citationsDOIOpen Access PDF

Abstract

The cell-adhesion proteins neuroligin-3 and neuroligin-4X (NLGN3/4X) have well described roles in synapse formation. NLGN3/4X are also expressed highly during neurodevelopment. However, the role these proteins play during this period is unknown. Here we show that NLGN3/4X localized to the leading edge of growth cones where it promoted neuritogenesis in immature human neurons. Super-resolution microscopy revealed that NLGN3/4X clustering induced growth cone enlargement and influenced actin filament organization. Critically, these morphological effects were not induced by autism spectrum disorder (ASD)-associated NLGN3/4X variants. Finally, actin regulators p21-activated kinase 1 and cofilin were found to be activated by NLGN3/4X and involved in mediating the effects of these adhesion proteins on actin filaments, growth cones and neuritogenesis. These data reveal a novel role for NLGN3 and NLGN4X in the development of neuronal architecture, which may be altered in the presence of ASD-associated variants.

Topics & Concepts

NeuroliginGrowth coneBiologyCofilinCell biologyActinPAK1Actin cytoskeletonKinaseCytoskeletonGeneticsCellReceptorAxonExcitatory postsynaptic potentialCellular transport and secretionCellular Mechanics and InteractionsCell Image Analysis Techniques
Neuroligin-3 and neuroligin-4X form nanoscopic clusters and regulate growth cone organization and size | Litcius