Ex Vivo Recording of Axonal Transport Dynamics on Postnatal Organotypic Cortical Slices

Axonal transport is a physiological process adopted by neurons to transport organelles, proteins, and other molecules along their axonal projections. Here, we describe a step-by-step protocol to record the dynamics of axonal transport along the projections of callosal neurons by combining the in utero electroporation technique with the preparation of postnatal organotypic cortical slices. This ex vivo protocol has been developed to investigate axonal transport in a physiological setting closely reproducing the in vivo environment. For complete details on the use and execution of this protocol, please refer to Even et al. (2019). [Display omitted] •Descriptive method to electroporate DNA plasmids in the embryonic mouse cortex•Step-by-step procedure to generate and mount organotypic brain slices•Protocol to record and analyze axonal transport in callosal projection neurons•Guidelines for protocol troubleshooting and overview on its limitations Axonal transport is a physiological process adopted by neurons to transport organelles, proteins, and other molecules along their axonal projections. Here, we describe a step-by-step protocol to record the dynamics of axonal transport along the projections of callosal neurons by combining the in utero electroporation technique with the preparation of postnatal organotypic cortical slices. This ex vivo protocol has been developed to investigate axonal transport in a physiological setting closely reproducing the in vivo environment.