Literature DB >> 24850385

AMP-activated protein kinase: maintaining energy homeostasis at the cellular and whole-body levels.

D Grahame Hardie1.   

Abstract

The adenosine monophosphate (AMP)-activated protein kinase (AMPK) signaling pathway arose early during evolution of eukaryotic cells, when it appears to have been involved in the response to glucose starvation and perhaps also in monitoring the output of the newly acquired mitochondria. Due to the advent of hormonal regulation of glucose homeostasis, glucose starvation is a less frequent event for mammalian cells than for single-celled eukaryotes. Nevertheless, the AMPK system has been preserved in mammals where, by monitoring cellular AMP:adenosine triphosphate (ATP) and adenosine diphosphate (ADP):ATP ratios and balancing the rates of catabolism and ATP consumption, it maintains energy homeostasis at a cell-autonomous level. In addition, hormones involved in maintaining energy balance at the whole-body level interact with AMPK in the hypothalamus. AMPK is activated by two widely used clinical drugs, metformin and aspirin, and also by many natural products of plants that are either derived from traditional medicines or are promoted as "nutraceuticals."

Entities:  

Keywords:  energy balance; ghrelin; leptin; metformin; salicylate; traditional medicine

Mesh:

Substances:

Year:  2014        PMID: 24850385      PMCID: PMC5693323          DOI: 10.1146/annurev-nutr-071812-161148

Source DB:  PubMed          Journal:  Annu Rev Nutr        ISSN: 0199-9885            Impact factor:   11.848


  186 in total

1.  p70S6 kinase phosphorylates AMPK on serine 491 to mediate leptin's effect on food intake.

Authors:  Yossi Dagon; Elizabeth Hur; Bin Zheng; Kerry Wellenstein; Lewis C Cantley; Barbara B Kahn
Journal:  Cell Metab       Date:  2012-06-21       Impact factor: 27.287

2.  Octaphlorethol A, a novel phenolic compound isolated from a brown alga, Ishige foliacea, increases glucose transporter 4-mediated glucose uptake in skeletal muscle cells.

Authors:  Seung-Hong Lee; Sung-Myung Kang; Seok-Chun Ko; Dae-Ho Lee; You-Jin Jeon
Journal:  Biochem Biophys Res Commun       Date:  2012-03-15       Impact factor: 3.575

3.  Reversible modulation of the activities of both liver microsomal hydroxymethylglutaryl coenzyme A reductase and its inactivating enzyme. Evidence for regulation by phosphorylation-dephosphorylation.

Authors:  T S Ingebritsen; H S Lee; R A Parker; D M Gibson
Journal:  Biochem Biophys Res Commun       Date:  1978-04-28       Impact factor: 3.575

4.  Anticancer properties of pomolic acid-induced AMP-activated protein kinase activation in MCF7 human breast cancer cells.

Authors:  Seog Hyeon Youn; Jin Sun Lee; Myung Sun Lee; Eun Young Cha; Phuong Thien Thuong; Je Ryong Kim; Eil Sung Chang
Journal:  Biol Pharm Bull       Date:  2012       Impact factor: 2.233

5.  Celastrol suppresses breast cancer MCF-7 cell viability via the AMP-activated protein kinase (AMPK)-induced p53-polo like kinase 2 (PLK-2) pathway.

Authors:  Ji Hae Kim; Jung Ok Lee; Soo Kyung Lee; Nami Kim; Ga Young You; Ji Wook Moon; Jie Sha; Su Jin Kim; Sun Hwa Park; Hyeon Soo Kim
Journal:  Cell Signal       Date:  2012-12-22       Impact factor: 4.315

6.  2-(2,4-dihydroxyphenyl)-5-(E)-propenylbenzofuran promotes endothelial nitric oxide synthase activity in human endothelial cells.

Authors:  Angela Ladurner; Atanas G Atanasov; Elke H Heiss; Lisa Baumgartner; Stefan Schwaiger; Judith M Rollinger; Hermann Stuppner; Verena M Dirsch
Journal:  Biochem Pharmacol       Date:  2012-07-06       Impact factor: 5.858

7.  Structure of mammalian AMPK and its regulation by ADP.

Authors:  Bing Xiao; Matthew J Sanders; Elizabeth Underwood; Richard Heath; Faith V Mayer; David Carmena; Chun Jing; Philip A Walker; John F Eccleston; Lesley F Haire; Peter Saiu; Steven A Howell; Rein Aasland; Stephen R Martin; David Carling; Steven J Gamblin
Journal:  Nature       Date:  2011-03-13       Impact factor: 49.962

8.  ADP regulates SNF1, the Saccharomyces cerevisiae homolog of AMP-activated protein kinase.

Authors:  Faith V Mayer; Richard Heath; Elizabeth Underwood; Matthew J Sanders; David Carmena; Rhonda R McCartney; Fiona C Leiper; Bing Xiao; Chun Jing; Philip A Walker; Lesley F Haire; Roksana Ogrodowicz; Stephen R Martin; Martin C Schmidt; Steven J Gamblin; David Carling
Journal:  Cell Metab       Date:  2011-10-20       Impact factor: 27.287

9.  Adiponectin stimulates glucose utilization and fatty-acid oxidation by activating AMP-activated protein kinase.

Authors:  T Yamauchi; J Kamon; Y Minokoshi; Y Ito; H Waki; S Uchida; S Yamashita; M Noda; S Kita; K Ueki; K Eto; Y Akanuma; P Froguel; F Foufelle; P Ferre; D Carling; S Kimura; R Nagai; B B Kahn; T Kadowaki
Journal:  Nat Med       Date:  2002-10-07       Impact factor: 53.440

10.  Phosphorylation by Akt within the ST loop of AMPK-α1 down-regulates its activation in tumour cells.

Authors:  Simon A Hawley; Fiona A Ross; Graeme J Gowans; Priyanka Tibarewal; Nicholas R Leslie; D Grahame Hardie
Journal:  Biochem J       Date:  2014-04-15       Impact factor: 3.857
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  78 in total

Review 1.  Evolving Lessons on the Complex Role of AMPK in Normal Physiology and Cancer.

Authors:  Biplab Dasgupta; Rishi Raj Chhipa
Journal:  Trends Pharmacol Sci       Date:  2015-12-20       Impact factor: 14.819

Review 2.  Why AMPK agonists not known to be stressors may surprisingly contribute to miscarriage or hinder IVF/ART.

Authors:  Elizabeth E Puscheck; Alan Bolnick; Awoniyi Awonuga; Yu Yang; Mohammed Abdulhasan; Quanwen Li; Eric Secor; Erica Louden; Maik Hüttemann; Daniel A Rappolee
Journal:  J Assist Reprod Genet       Date:  2018-06-07       Impact factor: 3.412

3.  Chlorinated adenosine analogue induces AMPK and autophagy in chronic lymphocytic leukaemia cells during therapy.

Authors:  Christine M Stellrecht; Lisa S Chen; Mary L Ayres; Jennifer B Dennison; Shujun Shentu; Yuling Chen; Michael J Keating; William G Wierda; Varsha Gandhi
Journal:  Br J Haematol       Date:  2017-07-24       Impact factor: 6.998

4.  AMPKα2 in Kiss1 Neurons Is Required for Reproductive Adaptations to Acute Metabolic Challenges in Adult Female Mice.

Authors:  Marcio A Torsoni; Beatriz C Borges; Jessica L Cote; Susan J Allen; Erica Mahany; David Garcia-Galiano; Carol F Elias
Journal:  Endocrinology       Date:  2016-10-12       Impact factor: 4.736

Review 5.  Regulation of pulmonary endothelial barrier function by kinases.

Authors:  Nektarios Barabutis; Alexander Verin; John D Catravas
Journal:  Am J Physiol Lung Cell Mol Physiol       Date:  2016-09-23       Impact factor: 5.464

6.  Glucose Metabolism and AMPK Signaling Regulate Dopaminergic Cell Death Induced by Gene (α-Synuclein)-Environment (Paraquat) Interactions.

Authors:  Annadurai Anandhan; Shulei Lei; Roman Levytskyy; Aglaia Pappa; Mihalis I Panayiotidis; Ronald L Cerny; Oleh Khalimonchuk; Robert Powers; Rodrigo Franco
Journal:  Mol Neurobiol       Date:  2016-06-20       Impact factor: 5.590

7.  Discovery of MK-8722: A Systemic, Direct Pan-Activator of AMP-Activated Protein Kinase.

Authors:  Danqing Feng; Tesfaye Biftu; F Anthony Romero; Ahmet Kekec; James Dropinski; Andrew Kassick; Shiyao Xu; Marc M Kurtz; Anantha Gollapudi; Qing Shao; Xiaodong Yang; Ku Lu; Gaochao Zhou; Daniel Kemp; Robert W Myers; Hong-Ping Guan; Maria E Trujillo; Cai Li; Ann Weber; Iyassu K Sebhat
Journal:  ACS Med Chem Lett       Date:  2017-12-01       Impact factor: 4.345

Review 8.  AMPK--sensing energy while talking to other signaling pathways.

Authors:  D Grahame Hardie
Journal:  Cell Metab       Date:  2014-10-30       Impact factor: 27.287

Review 9.  Hypothalamic AMPK: a canonical regulator of whole-body energy balance.

Authors:  Miguel López; Rubén Nogueiras; Manuel Tena-Sempere; Carlos Diéguez
Journal:  Nat Rev Endocrinol       Date:  2016-05-20       Impact factor: 43.330

Review 10.  Eukaryotic elongation factor 2 kinase as a drug target in cancer, and in cardiovascular and neurodegenerative diseases.

Authors:  Rui Liu; Christopher G Proud
Journal:  Acta Pharmacol Sin       Date:  2016-01-25       Impact factor: 6.150
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