Mitochondrial pull-out controls mitochondrial structure in response to mitochondrial activity

Mitochondrial networks undergo continuous remodeling through fusion and fission, processes that are essential for maintaining energy production and cellular homeostasis. However, these mechanisms alone cannot fully account for the formation of highly interconnected mitochondrial networks. Here, we identify mitochondrial pull-out as a distinct remodeling event characterized by the lateral extrusion from pre-existing mitochondrial tubules. These pull-outs generate new mitochondrial ends that act as preferential sites for fusion, thereby increasing network connectivity. Pull-out events occur predominantly at endoplasmic reticulum–mitochondria contact sites and require the mitochondrial dynamins MFN1 and DRP1, distinguishing this process from previously described dynamic tubulation. Importantly, pull-out events are stimulated by conditions favoring oxidative phosphorylation, playing an important role in the associated remodelling of mitochondrial networks. Together, these findings establish mitochondrial pull-out as a metabolically sensitive mechanism that promotes mitochondrial network reorganization and links organelle architecture to cellular energy demands.