AMPK: guardian of metabolism and mitochondrial homeostasis

S Herzig, RJ Shaw - Nature reviews Molecular cell biology, 2018 - nature.com
Nature reviews Molecular cell biology, 2018nature.com
Cells constantly adapt their metabolism to meet their energy needs and respond to nutrient
availability. Eukaryotes have evolved a very sophisticated system to sense low cellular ATP
levels via the serine/threonine kinase AMP-activated protein kinase (AMPK) complex. Under
conditions of low energy, AMPK phosphorylates specific enzymes and growth control nodes
to increase ATP generation and decrease ATP consumption. In the past decade, the
discovery of numerous new AMPK substrates has led to a more complete understanding of …
Abstract
Cells constantly adapt their metabolism to meet their energy needs and respond to nutrient availability. Eukaryotes have evolved a very sophisticated system to sense low cellular ATP levels via the serine/threonine kinase AMP-activated protein kinase (AMPK) complex. Under conditions of low energy, AMPK phosphorylates specific enzymes and growth control nodes to increase ATP generation and decrease ATP consumption. In the past decade, the discovery of numerous new AMPK substrates has led to a more complete understanding of the minimal number of steps required to reprogramme cellular metabolism from anabolism to catabolism. This energy switch controls cell growth and several other cellular processes, including lipid and glucose metabolism and autophagy. Recent studies have revealed that one ancestral function of AMPK is to promote mitochondrial health, and multiple newly discovered targets of AMPK are involved in various aspects of mitochondrial homeostasis, including mitophagy. This Review discusses how AMPK functions as a central mediator of the cellular response to energetic stress and mitochondrial insults and coordinates multiple features of autophagy and mitochondrial biology.
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