Cells must constantly adapt their metabolism to the availability of nutrients and signals from their environment. Under conditions of limited nutrients, cells need to reprogram their metabolism to rely on internal stores of glucose and lipid metabolites. From the emergence of eukaryotes to the mitochondria as the central source of ATP to hundreds of other metabolites required for cellular homeostasis, survival, and proliferation, cells had to evolve sensors to detect even modest changes in mitochondrial function in order to safeguard cellular integrity and prevent energetic catastrophe. Homologs of AMP-activated protein kinase (AMPK) are found in all eukaryotic species and serve as an ancient sensor of conditions of low cellular energy. Here we explore advances in how AMPK modulates core processes underpinning the mitochondrial life cycle and how it serves to restore mitochondrial health in parallel with other beneficial metabolic adaptations.
Malik et al. (Wed,) studied this question.
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