Abstract
Neuronal signaling requires large amounts of ATP, making neurons particularly sensitive to defects in energy homeostasis. Mitochondrial movement and energy production are therefore regulated to align local demands with mitochondrial output. Here, we report a pathway that arrests mitochondria in response to decreases in the ATP-to-AMP ratio, an indication that ATP consumption exceeds supply. In neurons and cell lines, low concentrations of the electron transport chain inhibitor antimycin A decrease the production of ATP and concomitantly arrest mitochondrial movement without triggering mitophagy. This arrest is accompanied by the accumulation of actin fibers adjacent to the mitochondria, which serve as an anchor that resists the associated motors. This arrest is mediated by activation of the energy-sensing kinase AMPK, which phosphorylates TRAK1. This mechanism likely helps maintain cellular energy homeostasis by anchoring energy-producing mitochondria in places where they are most needed.