Vasquez_2020_J.Chem.Inf.Model_60_995

Neuroligin-1 (NL1) is a postsynaptic cell adhesion protein that plays a crucial role in synapsis and signaling between neurons. Due to its clustered distribution in synaptic clefts, NL1 appears as a novel potential site for synaptic targeting purposes. In this work, in silico protein topography analysis was employed to identify two prospective binding sites on the NL1 dimer surface in the 2:2 synaptic adhesion complex with beta-neurexin (PDB code 3B3Q ). Receptor-based rational design, cell-penetrating capability prediction, molecular docking, molecular dynamics simulations, and binding free energy calculations were used to identify five heptapeptides candidates with favorable predicted profiles as non cell-penetrating NL1-binding agents. Preliminary in vitro colocalization assays with NL1-transfected HEK 293 cells confirmed that peptides remain in the extracellular space without inducing detectable changes in cell morphology. The highest NL1-colocatization capability was attained by the peptide ADEAIVA, which appears as a promising candidate for the future development of specific NL1-targeting systems as part of synapse-directed therapies against central nervous system diseases.