David Carmena scite author profile

The heterotrimeric AMP-activated protein kinase (AMPK) plays a key role in regulating cellular energy metabolism; in response to a fall in intracellular ATP levels it activates energy producing pathways and inhibits energy consuming processes1. AMPK has been implicated in a number of diseases related to energy metabolism including type 2 diabetes, obesity and, most recently, cancer 2,3,4,5,6. AMPK is converted from an inactive to catalytically competent form by phosphorylation of the activation loop within the kinase domain7; AMP binding to the γ regulatory domain promotes phosphorylation by the upstream kinase8, protects the enzyme against dephosphorylation as well as causing allosteric activation9. We show here that ADP binding to just one of the two exchangeable AXP binding sites on the regulatory domain protects the enzyme from dephosphorylation, although it does not lead to allosteric activation. Our studies show that active AMPK displays significantly tighter binding to ADP than to Mg.ATP, explaining how the enzyme is regulated under physiological conditions where the concentration of Mg.ATP is higher than that of ADP and much higher than that of AMP. We have determined the crystal structure of an active AMPK complex. It shows how the activation loop of the kinase domain is stabilized by the regulatory domain and how the kinase linker region interacts with the regulatory nucleotide binding site that mediates protection against dephosphorylation. From our biochemical and structural data we develop a model for how the energy status of a cell regulates AMPK activity (Supplementary Fig. 1).

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Structural basis of AMPK regulation by small molecule activators

Xiao¹,

Sanders²,

et al. 2013

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AMP-activated protein kinase (AMPK) plays a major role in regulating cellular energy balance by sensing and responding to increases in AMP/ADP concentration relative to ATP. Binding of AMP causes allosteric activation of the enzyme and binding of either AMP or ADP promotes and maintains the phosphorylation of threonine 172 within the activation loop of the kinase. AMPK has attracted widespread interest as a potential therapeutic target for metabolic diseases including type 2 diabetes and, more recently, cancer. A number of direct AMPK activators have been reported as having beneficial effects in treating metabolic diseases, but there has been no structural basis for activator binding to AMPK. Here we present the crystal structure of human AMPK in complex with a small molecule activator that binds at a site between the kinase domain and the carbohydrate-binding module, stabilising the interaction between these two components. The nature of the activator-binding pocket suggests the involvement of an additional, as yet unidentified, metabolite in the physiological regulation of AMPK. Importantly, the structure offers new opportunities for the design of small molecule activators of AMPK for treatment of metabolic disorders.

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A review of the global prevalence, molecular epidemiology and economics of cystic echinococcosis in production animals

Cardona

Carmena

2013

Veterinary Parasitology

198

143

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David Carmena

Structure of mammalian AMPK and its regulation by ADP

Structural basis of AMPK regulation by small molecule activators

A review of the global prevalence, molecular epidemiology and economics of cystic echinococcosis in production animals

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