Mitochondrial calcium regulates lipid metabolism by modulating tethering of mitochondria to lipid droplets
摘要
Adrenergic stimulation of brown adipocytes induces a robust detachment of mitochondria from lipid droplets (LD), which is followed by lipolysis and lipid catabolism. However, the signals inducing mitochondria attachment or detachment, and their role in lipid metabolism, remain unknown. Here, we reconstituted mitochondria-LD interaction in brown adipocyte tissue (BAT) ex vivo. We find that removal of mitochondria from lipid droplets permits higher lipolytic activity of recombinant lipases. Testing the effect of thermogenic secondary messengers and metabolites on attachment and detachment identified elevated mitochondrial matrix calcium as a potent inducer of detachment. Further, deletion of the mitochondrial sodium/calcium exchanger, NCLX, resulted in reduced attachment and increased detachment, while activation of NCLX increased attachment. We find that elevated matrix calcium causes detachment by inducing architectural transformation of peridroplet mitochondria (PDM) from their typical LD-surface-bound crescent shape into a round shape. PDE2A inhibition activates NCLX and increases PDM content in BAT in vitro and in vivo. We conclude that a surge in mitochondrial matrix calcium ions serves as a potent signal to induce mitochondrial detachment from lipid droplets, thereby facilitating lipolysis.