Nanoscopy of Organelle Handoff Portals Reveals Direct Coupling between ER Remodeling and Microtubule-Based Transport

How biosynthetic organelles leave the endoplasmic reticulum (ER) and engage with microtubule tracks remains a central question. Combining interferometric scattering with fluorescence nanoscopy, we tracked nanometer-scale handoff events in living cells. ER-derived organelles undergo biased diffusion along ER tubules toward nearby microtubules. ER three-way junctions function as nanoscopic hubs where cargo pauses, contacts multiple microtubules, and then launches onto a track for long-range travel. Remarkably, the ER maintains a membrane tether to the departing cargo, extending its tubules and forming new junctions, thereby coupling inter-network transfer with membrane morphogenesis. These observations reveal an integrated mechanism that links organelle biogenesis, directional trafficking, and continual ER- and cellular remodeling, underscoring the ER’s active role in steering transport and repurposing its own output within the crowded intracellular environment.