Literature DB >> 20127721

Alcohol and PRAS40 knockdown decrease mTOR activity and protein synthesis via AMPK signaling and changes in mTORC1 interaction.

Ly Q Hong-Brown1, C Randell Brown, Abid A Kazi, Danuta S Huber, Anne M Pruznak, Charles H Lang.   

Abstract

The mTORC1 protein kinase complex consists of mTOR, raptor, mLST8/GbetaL and PRAS40. Previously, we reported that mTOR plays an important role in regulating protein synthesis in response to alcohol (EtOH). However, the mechanisms by which EtOH regulates mTORC1 activity have not been established. Here, we investigated the effect of EtOH on the phosphorylation and interaction of components of mTORC1 in C2C12 myocytes. We also examined the specific role that PRAS40 plays in this process. Incubation of myocytes with EtOH (100 mM, 24 h) increased raptor and PRAS40 phosphorylation. Likewise, there were increased levels of the PRAS40 upstream regulators Akt and IRS-1. EtOH also caused changes in mTORC1 protein-protein interactions. EtOH enhanced the binding of raptor and PRAS40 with mTOR. These alterations occurred in concert with increased binding of 14-3-3 to raptor, while the PRAS40 and 14-3-3 interaction was not affected. The shRNA knockdown (KD) of PRAS40 decreased protein synthesis similarly to EtOH. PRAS40 KD increased raptor phosphorylation and its association with 14-3-3, whereas decreased GbetaL-mTOR binding. The effects of EtOH and PRAS40 KD were mediated by AMPK. Both factors increased in vitro AMPK activity towards the substrate raptor. In addition, KD enhanced the activity of AMPK towards TSC2. Collectively, our results indicate that EtOH stabilizes the association of raptor, PRAS40, and GbetaL with mTOR, while likewise increasing the interaction of raptor with 14-3-3. These data suggest a possible mechanism for the inhibitory effects of EtOH on mTOR kinase activity and protein synthesis in myocytes.

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Year:  2010        PMID: 20127721      PMCID: PMC3657206          DOI: 10.1002/jcb.22496

Source DB:  PubMed          Journal:  J Cell Biochem        ISSN: 0730-2312            Impact factor:   4.429


  40 in total

1.  GbetaL, a positive regulator of the rapamycin-sensitive pathway required for the nutrient-sensitive interaction between raptor and mTOR.

Authors:  Do-Hyung Kim; D D Sarbassov; Siraj M Ali; Robert R Latek; Kalyani V P Guntur; Hediye Erdjument-Bromage; Paul Tempst; David M Sabatini
Journal:  Mol Cell       Date:  2003-04       Impact factor: 17.970

2.  Raptor, a binding partner of target of rapamycin (TOR), mediates TOR action.

Authors:  Kenta Hara; Yoshiko Maruki; Xiaomeng Long; Ken-ichi Yoshino; Noriko Oshiro; Sujuti Hidayat; Chiharu Tokunaga; Joseph Avruch; Kazuyoshi Yonezawa
Journal:  Cell       Date:  2002-07-26       Impact factor: 41.582

3.  Two TOR complexes, only one of which is rapamycin sensitive, have distinct roles in cell growth control.

Authors:  Robbie Loewith; Estela Jacinto; Stephan Wullschleger; Anja Lorberg; José L Crespo; Débora Bonenfant; Wolfgang Oppliger; Paul Jenoe; Michael N Hall
Journal:  Mol Cell       Date:  2002-09       Impact factor: 17.970

Review 4.  How do 14-3-3 proteins work?-- Gatekeeper phosphorylation and the molecular anvil hypothesis.

Authors:  Michael B Yaffe
Journal:  FEBS Lett       Date:  2002-02-20       Impact factor: 4.124

5.  Alcohol impairs protein synthesis and degradation in cultured skeletal muscle cells.

Authors:  L Q Hong-Brown; R A Frost; C H Lang
Journal:  Alcohol Clin Exp Res       Date:  2001-09       Impact factor: 3.455

6.  TSC2 mediates cellular energy response to control cell growth and survival.

Authors:  Ken Inoki; Tianqing Zhu; Kun-Liang Guan
Journal:  Cell       Date:  2003-11-26       Impact factor: 41.582

7.  Mammalian TOR complex 2 controls the actin cytoskeleton and is rapamycin insensitive.

Authors:  Estela Jacinto; Robbie Loewith; Anja Schmidt; Shuo Lin; Markus A Rüegg; Alan Hall; Michael N Hall
Journal:  Nat Cell Biol       Date:  2004-10-03       Impact factor: 28.824

8.  Identification of a proline-rich Akt substrate as a 14-3-3 binding partner.

Authors:  Kristina S Kovacina; Grace Y Park; Sun Sik Bae; Andrew W Guzzetta; Erik Schaefer; Morris J Birnbaum; Richard A Roth
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9.  mTOR interacts with raptor to form a nutrient-sensitive complex that signals to the cell growth machinery.

Authors:  Do-Hyung Kim; D D Sarbassov; Siraj M Ali; Jessie E King; Robert R Latek; Hediye Erdjument-Bromage; Paul Tempst; David M Sabatini
Journal:  Cell       Date:  2002-07-26       Impact factor: 41.582

10.  Identification of the tuberous sclerosis complex-2 tumor suppressor gene product tuberin as a target of the phosphoinositide 3-kinase/akt pathway.

Authors:  Brendan D Manning; Andrew R Tee; M Nicole Logsdon; John Blenis; Lewis C Cantley
Journal:  Mol Cell       Date:  2002-07       Impact factor: 17.970
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  30 in total

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Authors:  Stephen Bertsch; Charles H Lang; Thomas C Vary
Journal:  Shock       Date:  2011-03       Impact factor: 3.454

2.  Rag GTPases and AMPK/TSC2/Rheb mediate the differential regulation of mTORC1 signaling in response to alcohol and leucine.

Authors:  Ly Q Hong-Brown; C Randell Brown; Abid A Kazi; Maithili Navaratnarajah; Charles H Lang
Journal:  Am J Physiol Cell Physiol       Date:  2012-03-21       Impact factor: 4.249

3.  Peroxisome proliferator-activated receptor agonist treatment of alcohol-induced hepatic insulin resistance.

Authors:  Suzanne M de la Monte; Maoyin Pang; Rajeev Chaudhry; Kevin Duan; Lisa Longato; Jade Carter; Jiyun Ouh; Jack R Wands
Journal:  Hepatol Res       Date:  2011-02-24       Impact factor: 4.288

Review 4.  Proteomic approaches and identification of novel therapeutic targets for alcoholism.

Authors:  Giorgio Gorini; R Adron Harris; R Dayne Mayfield
Journal:  Neuropsychopharmacology       Date:  2013-07-31       Impact factor: 7.853

5.  Moderate alcohol induces stress proteins HSF1 and hsp70 and inhibits proinflammatory cytokines resulting in endotoxin tolerance.

Authors:  Sujatha Muralidharan; Aditya Ambade; Melissa A Fulham; Janhavee Deshpande; Donna Catalano; Pranoti Mandrekar
Journal:  J Immunol       Date:  2014-07-14       Impact factor: 5.422

6.  Mechanisms Underlying Muscle Protein Imbalance Induced by Alcohol.

Authors:  Scot R Kimball; Charles H Lang
Journal:  Annu Rev Nutr       Date:  2018-08-21       Impact factor: 11.848

7.  PRAS40 Phosphorylation Correlates with Insulin-Like Growth Factor-1 Receptor-Induced Resistance to Epidermal Growth Factor Receptor Inhibition in Head and Neck Cancer Cells.

Authors:  Michael I Dougherty; Christine E Lehman; Adam Spencer; Rolando E Mendez; Abel P David; Linnea E Taniguchi; Julie Wulfkuhle; Emanuel F Petricoin; Daniel Gioeli; Mark J Jameson
Journal:  Mol Cancer Res       Date:  2020-05-28       Impact factor: 5.852

8.  Aging accentuates alcohol-induced decrease in protein synthesis in gastrocnemius.

Authors:  Donna H Korzick; Daniel R Sharda; Anne M Pruznak; Charles H Lang
Journal:  Am J Physiol Regul Integr Comp Physiol       Date:  2013-03-27       Impact factor: 3.619

9.  Mechanisms mediating the effects of alcohol and HIV anti-retroviral agents on mTORC1, mTORC2 and protein synthesis in myocytes.

Authors:  Ly Q Hong-Brown; Abid A Kazi; Charles H Lang
Journal:  World J Biol Chem       Date:  2012-06-26

10.  Direct central nervous system effect of alcohol alters synthesis and degradation of skeletal muscle protein.

Authors:  Anne M Pruznak; Jay Nystrom; Charles H Lang
Journal:  Alcohol Alcohol       Date:  2012-10-18       Impact factor: 2.826
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