Literature DB >> 24072782

Hepatic signaling by the mechanistic target of rapamycin complex 2 (mTORC2).

Dudley W Lamming1, Gokhan Demirkan, Joan M Boylan, Maria M Mihaylova, Tao Peng, Jonathan Ferreira, Nicola Neretti, Arthur Salomon, David M Sabatini, Philip A Gruppuso.   

Abstract

The mechanistic target of rapamycin (mTOR) exists in two complexes that regulate diverse cellular processes. mTOR complex 1 (mTORC1), the canonical target of rapamycin, has been well studied, whereas the physiological role of mTORC2 remains relatively uncharacterized. In mice in which the mTORC2 component Rictor is deleted in liver [Rictor-knockout (RKO) mice], we used genomic and phosphoproteomic analyses to characterize the role of hepatic mTORC2 in vivo. Overnight food withdrawal followed by refeeding was used to activate mTOR signaling. Rapamycin was administered before refeeding to specify mTORC2-mediated events. Hepatic mTORC2 regulated a complex gene expression and post-translational network that affects intermediary metabolism, ribosomal biogenesis, and proteasomal biogenesis. Nearly all changes in genes related to intermediary metabolic regulation were replicated in cultured fetal hepatocytes, indicating a cell-autonomous effect of mTORC2 signaling. Phosphoproteomic profiling identified mTORC2-related signaling to 144 proteins, among which were metabolic enzymes and regulators. A reduction of p38 MAPK signaling in the RKO mice represents a link between our phosphoproteomic and gene expression results. We conclude that hepatic mTORC2 exerts a broad spectrum of biological effects under physiological conditions. Our findings provide a context for the development of targeted therapies to modulate mTORC2 signaling.

Entities:  

Keywords:  gene expression; liver; metabolism; proteomics; signal transduction

Mesh:

Substances:

Year:  2013        PMID: 24072782      PMCID: PMC3868844          DOI: 10.1096/fj.13-237743

Source DB:  PubMed          Journal:  FASEB J        ISSN: 0892-6638            Impact factor:   5.191


  51 in total

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2.  Activation of a metabolic gene regulatory network downstream of mTOR complex 1.

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Journal:  Mol Cell       Date:  2010-07-30       Impact factor: 17.970

Review 3.  Mechanisms and functions of p38 MAPK signalling.

Authors:  Ana Cuadrado; Angel R Nebreda
Journal:  Biochem J       Date:  2010-08-01       Impact factor: 3.857

Review 4.  mTOR complex 2 signaling and functions.

Authors:  Won Jun Oh; Estela Jacinto
Journal:  Cell Cycle       Date:  2011-07-15       Impact factor: 4.534

5.  The mTOR-regulated phosphoproteome reveals a mechanism of mTORC1-mediated inhibition of growth factor signaling.

Authors:  Peggy P Hsu; Seong A Kang; Jonathan Rameseder; Yi Zhang; Kathleen A Ottina; Daniel Lim; Timothy R Peterson; Yongmun Choi; Nathanael S Gray; Michael B Yaffe; Jarrod A Marto; David M Sabatini
Journal:  Science       Date:  2011-06-10       Impact factor: 47.728

6.  Lipocalin-13 regulates glucose metabolism by both insulin-dependent and insulin-independent mechanisms.

Authors:  Kae Won Cho; Yingjiang Zhou; Liang Sheng; Liangyou Rui
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7.  The physiology and pathophysiology of rapamycin resistance: implications for cancer.

Authors:  Philip A Gruppuso; Joan M Boylan; Jennifer A Sanders
Journal:  Cell Cycle       Date:  2011-04-01       Impact factor: 4.534

8.  p38 MAPK-mediated regulation of Xbp1s is crucial for glucose homeostasis.

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Journal:  Nat Med       Date:  2011-09-04       Impact factor: 53.440

9.  Class IIa histone deacetylases are hormone-activated regulators of FOXO and mammalian glucose homeostasis.

Authors:  Maria M Mihaylova; Debbie S Vasquez; Kim Ravnskjaer; Pierre-Damien Denechaud; Ruth T Yu; Jacqueline G Alvarez; Michael Downes; Ronald M Evans; Marc Montminy; Reuben J Shaw
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10.  Phosphoproteomic profiling of in vivo signaling in liver by the mammalian target of rapamycin complex 1 (mTORC1).

Authors:  Gokhan Demirkan; Kebing Yu; Joan M Boylan; Arthur R Salomon; Philip A Gruppuso
Journal:  PLoS One       Date:  2011-06-28       Impact factor: 3.240
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  45 in total

1.  Regulation of fetal liver growth in a model of diet restriction in the pregnant rat.

Authors:  Joan M Boylan; Jennifer A Sanders; Philip A Gruppuso
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Authors:  Heather Francois-Vaughan; Adeola O Adebayo; Kate E Brilliant; Nicola M A Parry; Philip A Gruppuso; Jennifer A Sanders
Journal:  Carcinogenesis       Date:  2016-02-10       Impact factor: 4.944

3.  Adaptation of HepG2 cells to a steady-state reduction in the content of protein phosphatase 6 (PP6) catalytic subunit.

Authors:  Joan M Boylan; Arthur R Salomon; Umadevi Tantravahi; Philip A Gruppuso
Journal:  Exp Cell Res       Date:  2015-05-18       Impact factor: 3.905

4.  Aging and Protein Kinases.

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5.  Identification of Potential Gene Network Associated with HCV-Related Hepatocellular Carcinoma Using Microarray Analysis.

Authors:  Yang Cheng; Jian Ping; Jianjie Chen
Journal:  Pathol Oncol Res       Date:  2017-07-01       Impact factor: 3.201

Review 6.  The Mechanistic Target of Rapamycin: The Grand ConducTOR of Metabolism and Aging.

Authors:  Brian K Kennedy; Dudley W Lamming
Journal:  Cell Metab       Date:  2016-06-14       Impact factor: 27.287

7.  Hepatic stearoyl CoA desaturase 1 deficiency increases glucose uptake in adipose tissue partially through the PGC-1α-FGF21 axis in mice.

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8.  The adaptor protein p66Shc inhibits mTOR-dependent anabolic metabolism.

Authors:  Mohamed A Soliman; Anas M Abdel Rahman; Dudley W Lamming; Dudley A Lamming; Kivanç Birsoy; Judy Pawling; Maria E Frigolet; Huogen Lu; I George Fantus; Adrian Pasculescu; Yong Zheng; David M Sabatini; James W Dennis; Tony Pawson
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9.  mTORC2 Responds to Glutamine Catabolite Levels to Modulate the Hexosamine Biosynthesis Enzyme GFAT1.

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Review 10.  Rapamycin: An InhibiTOR of Aging Emerges From the Soil of Easter Island.

Authors:  Sebastian I Arriola Apelo; Dudley W Lamming
Journal:  J Gerontol A Biol Sci Med Sci       Date:  2016-05-21       Impact factor: 6.053
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