Many immunoglobulin superfamily members are integral in development through regulation of processes such as growth cone guidance, cell migration, and neurite outgrowth. We demonstrate that homophilic interactions between voltage-gated sodium channel 1 subunits promote neurite extension in cerebellar granule neurons. Neurons isolated from wild-type or 1(؊/؊) mice were plated on top of parental, mock-, or 1-transfected fibroblasts. Wild-type neurons consistently showed increased neurite length when grown on 1-transfected monolayers, whereas 1(؊/؊) neurons showed no increase compared with control conditions. 1-Mediated neurite extension was mimicked using a soluble 1 extracellular domain and was blocked by antibodies directed against the 1 extracellular domain. Immunohistochemical analysis suggests that the 1 and 4 subunits, but not 2 and 3, are expressed in cerebellar Bergmann glia as well as granule neurons. These results suggest a novel role for 1 during neuronal development and are the first demonstration of a functional role for sodium channel  subunit-mediated cell adhesive interactions.Intercellular communications mediate critical developmental events in neurons. Interactions between integrins, cadherins, and immunoglobulin superfamily cell adhesion molecules (IGSF CAMs) 1 on opposing cells result in events such as growth cone guidance and neurite extension. For example, NCAM-and L1-CAM-mediated cell adhesive interactions result in signal transduction pathways involving kinase activation, modulation of local, submembraneous calcium concentrations, gene transcription, and ultimately, neurite extension (1-4). Some IGSF CAMs such as myelin-associated glycoprotein and contactin balance the growth promoting activity of other molecules through inhibition of neuritogenesis (5, 6). Thus, it is the concerted effort of growth-promoting and growth-inhibitory molecules on neuronal and non-neuronal cells that act to influence the developing nervous system. Postnatal cerebellar development involves migration of cerebellar granule neurons from the external germinal layer to the rapidly developing granule cell layer. During migration, a granule neuron develops several neurites, two of which ultimately become parallel fibers of the cerebellar molecular layer (7). Whereas most cell migration and neuritogenesis in the cerebellum is complete within the second postnatal week, migration of granule neurons, growth of the granule cell layer, and extension of parallel and vertical fibers continues through postnatal day 21 (P21) (7,8).Voltage-gated sodium channels are composed of a central, pore forming ␣-subunit and one or two  subunits (9). Whereas ␣ alone is sufficient to form the ion-conducting pore, current density, channel kinetics, gating mode, and channel cell surface density are influenced by  subunit expression (9, 10). There are five known  subunits: 1, 1A, 2, 3, and 4. 1, 1A, and 3 are non-covalently linked to the pore-forming ␣ subunit, while 2 and 4 are disulfide linked to ␣. Based on structur...
