The node of Ranvier influences the in vivo axonal transport of mitochondria and signaling endosomes

Efficient long-range axonal transport is essential for maintaining neuronal function, and perturbations in this process underlie severe neurological diseases. Nodes of Ranvier (NoR) are short, specialized unmyelinated axonal domains with a unique molecular and structural composition. Currently, it remains unresolved how the distinct molecular structures of the NoR impact axonal transport dynamics. Using intravital time-lapse microscopy of sciatic nerves in live, anesthetized mice, we reveal (1) similar morphologies of the NoR in fast and slow motor axons, (2) signaling endosomes and mitochondria accumulate specifically at the distal node, and (3) unique axonal transport profiles of signaling endosomes and mitochondria transiting through the NoR. Collectively, these findings provide important insights into the fundamental physiology of peripheral nerve axons, motor neuron subtypes, and diverse organelle dynamics at the NoR. Furthermore, this work has relevance for several pathologies affecting peripheral nerves and the NoR. [Display omitted] •Fast and slow motor neurons exhibit similar NoR morphology in vivo•Signaling endosomes and mitochondria accumulate specifically at the distal NoR•Transport dynamics of both organelles are altered at the NoR•Fastest transport speeds were observed at the internode proximal to the NoR Molecular neuroscience, Cellular neuroscience