1932

Annual Review of Biochemistry

Volume 67, 1998

Introduction

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THE AMP-ACTIVATED/SNF1 PROTEIN KINASE SUBFAMILY: Metabolic Sensors of the Eukaryotic Cell?

D. Grahame Hardie, David Carling, and Marian Carlson
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Affiliations: ¹Biochemistry Department, The University, Rundee, DD1 4HN, Scotland, United Kingdom, [email protected]; ²MRC Molecular Medicine Group, Imperial College School of Medicine, Hammersmith Hospital, London, W12 0NN, United Kingdom, [email protected]; ³Department of Genetics and Development, College of Physicians and Surgeons, Columbia University, New York, New York 10032; e-mail: [email protected]
Vol. 67:821-855 (Volume publication date July 1998) https://doi.org/10.1146/annurev.biochem.67.1.821
© Annual Reviews

Abstract

Mammalian AMP-activated protein kinase and yeast SNF1 protein kinase are the central components of kinase cascades that are highly conserved between animals, fungi, and plants. The AMP-activated protein kinase cascade acts as a metabolic sensor or “fuel gauge” that monitors cellular AMP and ATP levels because it is activated by increases in the AMP:ATP ratio. Once activated, the enzyme switches off ATP-consuming anabolic pathways and switches on ATP-producing catabolic pathways, such as fatty acid oxidation. The SNF1 complex in yeast is activated in response to the stress of glucose deprivation. In this case the intracellular signal or signals have not been identified; however, SNF1 activation is associated with depletion of ATP and elevation of AMP. The SNF1 complex acts primarily by inducing expression of genes required for catabolic pathways that generate glucose, probably by triggering phosphorylation of transcription factors. SNF1-related protein kinases in higher plants are likely to be involved in the response of plant cells to environmental and/or nutritional stress.

Keyword(s): ATP depletion, cellular stress, gene expression, glucose repression, protein phosphorylation

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/content/journals/10.1146/annurev.biochem.67.1.821

THE AMP-ACTIVATED/SNF1 PROTEIN KINASE SUBFAMILY: Metabolic Sensors of the Eukaryotic Cell?

Annual Review of Biochemistry 67, 821 (1998); https://doi.org/10.1146/annurev.biochem.67.1.821

/content/journals/10.1146/annurev.biochem.67.1.821

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Alderson A, Sabelli PA, Dickinson JR, Cole D, Richardson M. et al. 1991. Proc. Natl. Acad. Sci. USA 88:8602–5
LeGuen L, Thomas M, Bianchi M, Halford NG, Kreis M. 1992. Gene 120:249–54
Hannappel U, Vicente-Carbajosa J, Barker JHA, Shewry PR, Halford NG. 1995. Plant Mol. Biol. 27:1235–40
Halford NG, Vicente-Carbajosa J, Sabelli PA, Shewry PR, Hannappel U, Kreis M. 1992. Plant J. 2:791–97
Muranaka T, Banno H, Machida Y. 1994. Mol. Cell. Biol. 14:2958–65
MacKintosh RW, Davies SP, Clarke PR, Weekes J, Gillespie JG. et al. 1992. Eur. J. Biochem. 209:923–31
Davies SP, Carling D, Hardie DG. 1989. Eur. J. Biochem. 186:123–28
Ball KL, Dale S, Weekes J, Hardie DG. 1994. Eur. J. Biochem. 219:743–50
Dale S, Wilson WA, Edelman AM, Hardie DG. 1995. FEBS Lett. 361:191–95
Ball KL, Barker J, Halford NG, Hardie DG. 1995. FEBS Lett. 377:189–92
Jiang R, Carlson M. 1996. Genes Dev. 10:3105–15
Ingebritsen TS, Lee H, Parker RA, Gibson DM. 1978. Biochem. Biophys. Res. Commun. 81:1268–77
Ingebritsen TS, Parker RA, Gibson DM. 1981. J. Biol. Chem. 256:1138–44
Moore F, Weekes J, Hardie DG. 1991. Eur. J. Biochem. 199:691–97
Weekes J, Hawley SA, Corton J, Shugar D, Hardie DG. 1994. Eur. J. Biochem. 219:751–57
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