Synaptic cell adhesion molecules regulate various steps of synapse formation. The trans-synaptic adhesion between postsynaptic NGL-3 (for netrin-G ligand-3) and presynaptic LAR (for leukocyte antigen-related) regulates excitatory synapse formation in a bidirectional manner. However, little is known about the molecular details of the NGL-3-LAR adhesion and whether two additional LAR family proteins, protein-tyrosine phosphatase ␦ (PTP␦), and PTP, also interact with NGL-3 and are involved in synapse formation. We report here that the leucine-rich repeat (LRR) domain of NGL-3, containing nine LRRs, interacts with the first two fibronectin III (FNIII) domains of LAR to induce bidirectional synapse formation. Moreover, Gln-96 in the first LRR motif of NGL-3 is critical for LAR binding and induction of presynaptic differentiation. PTP␦ and PTP also interact with NGL-3 via their first two FNIII domains. These two interactions promote synapse formation in a different manner; the PTP-NGL-3 interaction promotes synapse formation in a bidirectional manner, whereas the PTP␦-NGL-3 interaction instructs only presynaptic differentiation in a unidirectional manner. mRNAs encoding LAR family proteins display overlapping and differential expression patterns in various brain regions. These results suggest that trans-synaptic adhesion between NGL-3 and the three LAR family proteins regulates excitatory synapse formation in shared and distinct neural circuits.Synaptic cell adhesion molecules have been implicated in the regulation of the initial contacts of dendrites and axons, early synapse formation and maturation, and maintenance and structural plasticity of established synapses (1-16). Recent studies have identified a large number of adhesion molecules that are capable of inducing pre-and postsynaptic differentiation in contacting axons and dendrites, respectively. Examples of such molecules include neuroligins, neurexins, SynCAMs, NGLs (for netrin-G ligand), 3 LAR (for leukocyte antigen-related), LRRTMs, and EphB receptors (17-22).The NGL family of synaptic adhesion molecules contains three known members: NGL-1, NGL-2, and NGL-3 (16, 20, 23). NGL proteins are mainly detected at the postsynaptic site of excitatory synapses (20). NGLs share a common domain structure, comprising nine LRRs and an immunoglobulin (Ig) domain in the extracellular region, followed by a single transmembrane domain and a cytoplasmic region that ends with a PDZ domain-binding motif. The C-terminal PDZ-binding motifs of NGLs bind to the PDZ domains of PSD-95, an abundant postsynaptic scaffolding protein (20). This interaction is thought to couple NGL-dependent trans-synaptic adhesions with postsynaptic differentiation.The extracellular regions of NGLs interact with distinct presynaptic ligands (16). NGL-1 and NGL-2 interact with netrin-G1 and netrin-G2 (also known as laminet-1 and laminet-2), respectively (20, 23), which are glycosylphosphatidylinositol-anchored adhesion molecules (24 -26). NGL-3 interacts with LAR (21), a receptor tyrosine phosphatase that...
