Neurofascin regulates the formation of gephyrin clusters and their subsequent translocation to the axon hillock of hippocampal neurons.

Little is known about the role of cell adhesion molecules (CAMs) in inhibitory synapse development. In particular, a functional link between CAMs and the clustering of postsynaptic scaffold component gephyrin, which is a critical determinant of gamma-aminobutyric acid A (GABA) receptor clustering, still needs to be elaborated. At early stages of inhibitory synapse formation, gephyrin and CAM neurofascin are diffusely expressed in the soma of hippocampal neurons.

A regulated switch of chick neurofascin isoforms modulates ligand recognition and neurite extension.

Neural cell adhesion molecule neurofascin regulates the induction of neurite outgrowth, the establishment of synaptic connectivity and myelination. Neurofascin isoforms are generated by spatially and temporally controlled alternative splicing. Isoform NF166 is predominantly expressed in dorsal root ganglia from embryonal day 5 (E5) to E8, and a further neurofascin isoform NF185 appears at E9.

Homophilic interactions of chick neurofascin in trans are important for neurite induction.

Neurofascin is a member of the immunoglobulin superfamily involved in axon extension and fasciculation. Here we apply adenoviral short hairpin RNA (shRNA) expression in primary neurons, PC12-NIH/3T3 co-cultures in combination with Luminex assays, to demonstrate homophilic interactions of neurofascin for neurite outgrowth. An adenoviral vector was constructed for the expression of shRNA in primary tectal cells that inhibits gene expression similar to short interfering RNA.