Author
Listed:
- Laura Braccini
(Molecular Biotechnology Center, University of Torino)
- Elisa Ciraolo
(Molecular Biotechnology Center, University of Torino)
- Carlo C. Campa
(Molecular Biotechnology Center, University of Torino)
- Alessia Perino
(Molecular Biotechnology Center, University of Torino
Present address: Metabolic Signaling, Institute of Bioengineering, School of Life Sciences, Ecole Polytechnique Fédérale de Lausanne (EPFL), Lausanne CH-1015, Switzerland)
- Dario L. Longo
(Molecular Biotechnology Center, University of Torino
Present address: Institute of Biostructure and Bioimaging (CNR), Molecular Biotechnology Center, University of Torino, Torino 10126, Italy)
- Gianpaolo Tibolla
(University of Milan)
- Marco Pregnolato
(Molecular Biotechnology Center, University of Torino)
- Yanyan Cao
(Albert Einstein College of Medicine)
- Beatrice Tassone
(Molecular Biotechnology Center, University of Torino)
- Federico Damilano
(Molecular Biotechnology Center, University of Torino
Present address: Beth Israel Deaconess Medical Center, Harvard, Boston, Massachusetts 02215, USA.)
- Muriel Laffargue
(INSERM UMR 1048, I2MC, Bât. L3, 1 av Jean-Poulhès, BP 84225)
- Enzo Calautti
(Molecular Biotechnology Center, University of Torino)
- Marco Falasca
(Metabolic Signalling Group, School of Biomedical Sciences, CHIRI Biosciences, Curtin University)
- Giuseppe D. Norata
(University of Milan)
- Jonathan M. Backer
(Albert Einstein College of Medicine)
- Emilio Hirsch
(Molecular Biotechnology Center, University of Torino)
Abstract
In the liver, insulin-mediated activation of the phosphatidylinositol 3-kinase (PI3K)/Akt pathway is at the core of metabolic control. Multiple PI3K and Akt isoenzymes are found in hepatocytes and whether isoform-selective interplays exist is currently unclear. Here we report that insulin signalling triggers the association of the liver-specific class II PI3K isoform γ (PI3K-C2γ) with Rab5-GTP, and its recruitment to Rab5-positive early endosomes. In these vesicles, PI3K-C2γ produces a phosphatidylinositol-3,4-bisphosphate pool specifically required for delayed and sustained endosomal Akt2 stimulation. Accordingly, loss of PI3K-C2γ does not affect insulin-dependent Akt1 activation as well as S6K and FoxO1-3 phosphorylation, but selectively reduces Akt2 activation, which specifically inhibits glycogen synthase activity. As a consequence, PI3K-C2γ-deficient mice display severely reduced liver accumulation of glycogen and develop hyperlipidemia, adiposity as well as insulin resistance with age or after consumption of a high-fat diet. Our data indicate PI3K-C2γ supports an isoenzyme-specific forking of insulin-mediated signal transduction to an endosomal pool of Akt2, required for glucose homeostasis.
Suggested Citation
Laura Braccini & Elisa Ciraolo & Carlo C. Campa & Alessia Perino & Dario L. Longo & Gianpaolo Tibolla & Marco Pregnolato & Yanyan Cao & Beatrice Tassone & Federico Damilano & Muriel Laffargue & Enzo C, 2015.
"PI3K-C2γ is a Rab5 effector selectively controlling endosomal Akt2 activation downstream of insulin signalling,"
Nature Communications, Nature, vol. 6(1), pages 1-15, November.
Handle:
RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8400
DOI: 10.1038/ncomms8400
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