AMP-activated protein kinase - development of the energy sensor concept

doi:10.1113/jphysiol.2006.108944

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AMP-activated protein kinase – development of the energy sensor concept

D. Grahame Hardie¹, Simon A. Hawley¹ and John W. Scott¹

¹ Division of Molecular Physiology, School of Life Sciences, University of Dundee, Dundee, Scotland, UK

The LKB1 $->$ AMPK cascade is switched on by metabolic stresses thateither inhibit ATP production (e.g. hypoxia, hypoglycaemia)or that accelerate ATP consumption (e.g. muscle contraction).Any decline in cellular energy status is accompanied by a risein the cellular AMP: ATP ratio, and this activates AMPK by acomplex and sensitive mechanism involving antagonistic bindingof the nucleotides to two sites on the regulatory ${gamma}$ subunitsof AMPK. Once activated by metabolic stress, AMPK activatescatabolic pathways that generate ATP, while inhibiting cellgrowth and biosynthesis and other processes that consume ATP.While the AMPK system probably evolved in single-celled eukaryotesto maintain energy balance at the cellular level, in multicellularorganisms its role has become adapted so that it is also involvedin maintaining whole body energy balance. Thus, it is regulatedby hormones and cytokines, especially the adipokines leptinand adiponectin, increasing whole body energy expenditure whileregulating food intake. Some hormones may activate AMPK by anLKB1-independent mechanism involving Ca²⁺/calmodulin dependentprotein kinase kinases. Low levels of activation of AMPK arelikely to play a role in the current global rise in obesityand Type 2 diabetes, and AMPK is the target for the widely usedantidiabetic drug metformin.

(Received 6 March 2006; accepted after revision 13 April 2006; first published online 20 April 2006)
Corresponding author D. G. Hardie: Division of Molecular Physiology, School of Life Sciences, University of Dundee, MSI/WTB/CIR Complex, Dow Street, Dundee DD1 5EH, Scotland, UK. Email: d.g.hardie{at}dundee.ac.uk

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