Laminin and BDNF synergistically induce local translation in axonal growth cones

AO_SCPLOWBSTRACTC_SCPLOWThe laminins are a family of extracellular matrix proteins that regulate numerous cellular processes, including adhesion, neurite outgrowth, and axon guidance. However, it remains unclear whether laminin regulates axon guidance through local translation. Here, we show that laminin is necessary for local translation in axonal growth cones. Local translation is significantly increased in growth cones of embryonic day 17 mouse cortical neurons, either cultured on or acutely stimulated with soluble laminin 111, in the presence of BDNF. When cultured on laminin isoforms 211 or 221 in the presence of BDNF, there was a remarkable decrease in local translation in growth cones. Using a puromycin-proximity ligation assay to examine newly synthesized {beta}-actin specifically, we find a significant increase in growth cones of neurons cultured on laminin 111 in the presence of BDNF. However, soluble laminin 111 alone results in a significant reduction in nascent {beta}-actin protein synthesis. These results indicate that laminin isoforms can act in multiple ways, including synergistically with guidance cues and independently, to modulate local mRNA translation, thereby differentially influencing axon growth and guidance during development. SO_SCPLOWUMMARYC_SCPLOW SO_SCPLOWTATEMENTC_SCPLOWLocal translation in axons is critical for axon guidance. Laminin, a key component of the extracellular matrix, is necessary to induce local translation and thus mediate axon growth and guidance.