Literature DB >> 18638456

AMPK represses TOP mRNA translation but not global protein synthesis in liver.

Ali K Reiter1, Douglas R Bolster, Stephen J Crozier, Scot R Kimball, Leonard S Jefferson.   

Abstract

The AMP-activated protein kinase (AMPK) represses signaling through the mammalian target of rapamycin complex 1 (mTORC1). In muscle, repression of mTORC1 leads to a reduction in global protein synthesis. In contrast, repression of mTORC1 in the liver has no immediate effect on global protein synthesis. In the present study, signaling through mTORC1 and translation of specific mRNAs such as those bearing a 5'-terminal oligopyrimidine (TOP) tract and were examined in rat liver following activation of AMPK after treadmill running. Activation of AMPK repressed translation of the TOP mRNAs encoding rpS6, rpS8, and eEF1alpha. In contrast, neither global protein synthesis nor translation of mRNAs encoding GAPDH or beta-actin was changed. Basal phosphorylation of the mTORC1 target 4E-BP1, but not S6K1 or rpS6, was reduced following activation of AMPK. Thus, in liver, AMPK activation repressed translation of TOP mRNAs through a mechanism distinct from downregulated phosphorylation of S6K1 or rpS6.

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Year:  2008        PMID: 18638456      PMCID: PMC2533707          DOI: 10.1016/j.bbrc.2008.07.025

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  27 in total

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2.  Effect of exercise on tissue protein synthesis in rats.

Authors:  K Hayase; H Yokogoshi
Journal:  Biosci Biotechnol Biochem       Date:  1992-10       Impact factor: 2.043

3.  Repression of protein synthesis and mTOR signaling in rat liver mediated by the AMPK activator aminoimidazole carboxamide ribonucleoside.

Authors:  Ali K Reiter; Douglas R Bolster; Stephen J Crozier; Scot R Kimball; Leonard S Jefferson
Journal:  Am J Physiol Endocrinol Metab       Date:  2004-12-21       Impact factor: 4.310

4.  Availability of eIF4E regulates skeletal muscle protein synthesis during recovery from exercise.

Authors:  T A Gautsch; J C Anthony; S R Kimball; G L Paul; D K Layman; L S Jefferson
Journal:  Am J Physiol       Date:  1998-02

5.  Insulin stimulates protein synthesis in skeletal muscle by enhancing the association of eIF-4E and eIF-4G.

Authors:  S R Kimball; C V Jurasinski; J C Lawrence; L S Jefferson
Journal:  Am J Physiol       Date:  1997-02

6.  Liver AMP-activated protein kinase and acetyl-CoA carboxylase during and after exercise.

Authors:  C L Carlson; W W Winder
Journal:  J Appl Physiol (1985)       Date:  1999-02

7.  The regulation of AMP-activated protein kinase by phosphorylation.

Authors:  S C Stein; A Woods; N A Jones; M D Davison; D Carling
Journal:  Biochem J       Date:  2000-02-01       Impact factor: 3.857

8.  Meal feeding alters translational control of gene expression in rat liver.

Authors:  Ali K Reiter; Stephen J Crozier; Scot R Kimball; Leonard S Jefferson
Journal:  J Nutr       Date:  2005-03       Impact factor: 4.798

Review 9.  AMP-activated protein kinase: balancing the scales.

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Journal:  Biochimie       Date:  2005-01       Impact factor: 4.079

10.  Hepatic amino acid-dependent signaling is under the control of AMP-dependent protein kinase.

Authors:  Peter F Dubbelhuis; Alfred J Meijer
Journal:  FEBS Lett       Date:  2002-06-19       Impact factor: 4.124
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  8 in total

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2.  Glucagon-Dependent Suppression of mTORC1 is Associated with Upregulation of Hepatic FGF21 mRNA Translation.

Authors:  Jaclyn E Welles; Michael D Dennis; Leonard S Jefferson; Scot R Kimball
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Review 3.  Ribosome biogenesis: emerging evidence for a central role in the regulation of skeletal muscle mass.

Authors:  Thomas Chaillou; Tyler J Kirby; John J McCarthy
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4.  alpha-Lipoic acid increases energy expenditure by enhancing adenosine monophosphate-activated protein kinase-peroxisome proliferator-activated receptor-gamma coactivator-1alpha signaling in the skeletal muscle of aged mice.

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Journal:  Metabolism       Date:  2009-12-16       Impact factor: 8.694

Review 5.  Emerging role of AMP-activated protein kinase in endocrine control of metabolism in the liver.

Authors:  Clinton M Hasenour; Eric D Berglund; David H Wasserman
Journal:  Mol Cell Endocrinol       Date:  2012-07-14       Impact factor: 4.102

6.  Identification of AMP-activated protein kinase targets by a consensus sequence search of the proteome.

Authors:  Traci L Marin; Brendan Gongol; Marcy Martin; Stephanie J King; Lemar Smith; David A Johnson; Shankar Subramaniam; Shu Chien; John Y-J Shyy
Journal:  BMC Syst Biol       Date:  2015-03-11

7.  The Psychiatric Risk Gene NT5C2 Regulates Adenosine Monophosphate-Activated Protein Kinase Signaling and Protein Translation in Human Neural Progenitor Cells.

Authors:  Rodrigo R R Duarte; Nathaniel D Bachtel; Marie-Caroline Côtel; Sang H Lee; Sashika Selvackadunco; Iain A Watson; Gary A Hovsepian; Claire Troakes; Gerome D Breen; Douglas F Nixon; Robin M Murray; Nicholas J Bray; Ioannis Eleftherianos; Anthony C Vernon; Timothy R Powell; Deepak P Srivastava
Journal:  Biol Psychiatry       Date:  2019-03-30       Impact factor: 13.382

8.  Translation of Human β-Actin mRNA is Regulated by mTOR Pathway.

Authors:  Irina Eliseeva; Maria Vasilieva; Lev P Ovchinnikov
Journal:  Genes (Basel)       Date:  2019-01-29       Impact factor: 4.096
  8 in total

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