Essential role of protein kinase B{gamma} (PKB{gamma}/Akt3) in postnatal brain development but not in glucose homeostasis

doi:10.1242/dev.01864

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First published online 1 June 2005
doi: 10.1242/dev.01864

Development 132, 2943-2954 (2005)
Published by The Company of Biologists 2005

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Essential role of protein kinase B ${gamma}$ (PKB ${gamma}$ /Akt3) in postnatal brain development but not in glucose homeostasis

Oliver Tschopp¹, Zhong-Zhou Yang¹, Daniela Brodbeck¹, Bettina A. Dummler¹, Maja Hemmings-Mieszczak², Takashi Watanabe³, Thomas Michaelis³, Jens Frahm³ and Brian A. Hemmings¹^,*

¹ Friedrich Miescher Institute for Biomedical Research, Maulbeerstrasse 66, CH-4058 Basel, Switzerland
² Novartis Pharma AG, Lichtstrasse 35, CH-4056, Basel, Switzerland
³ Biomedizinische NMR Forschungs GmbH am Max-Planck-Institut für biophysikalische Chemie, 37070 Göttingen, Germany

^* Author for correspondence (e-mail: brian.hemmings{at}fmi.ch)

Accepted 14 April 2005

Protein kinase B is implicated in many crucial cellular processes,such as metabolism, apoptosis and cell proliferation. In contrastto Pkb ${alpha}$ and Pkbß-deficient mice, Pkb ${gamma}$ ^-/- mice are viable,show no growth retardation and display normal glucose metabolism.However, in adult Pkb ${gamma}$ mutant mice, brain size and weight aredramatically reduced by about 25%. In vivo magnetic resonanceimaging confirmed the reduction of Pkb ${gamma}$ ^-/- brain volumes witha proportionally smaller ventricular system. Examination ofthe major brain structures revealed no anatomical malformationsexcept for a pronounced thinning of white matter fibre connectionsin the corpus callosum. The reduction in brain weight of Pkb ${gamma}$ ^-/-mice is caused, at least partially, by a significant reductionin both cell size and cell number. Our results provide novelinsights into the physiological role of PKB ${gamma}$ and suggest a crucialrole in postnatal brain development.

Key words: Pkb ${gamma}$ /Akt3 knockout, Brain development, Apoptosis

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Essential role of protein kinase B (PKB/Akt3) in postnatal brain development but not in glucose homeostasis

Essential role of protein kinase B ${gamma}$ (PKB ${gamma}$ /Akt3) in postnatal brain development but not in glucose homeostasis

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				L. Heron-Milhavet, C. Franckhauser, V. Rana, C. Berthenet, D. Fisher, B. A. Hemmings, A. Fernandez, and N. J. C. Lamb Only Akt1 Is Required for Proliferation, while Akt2 Promotes Cell Cycle Exit through p21 Binding Mol. Cell. Biol., November 15, 2006; 26(22): 8267 - 8280. [Abstract] [Full Text] [PDF]

				A. G.M. van Gorp, K. M. Pomeranz, K. U. Birkenkamp, R. C-Y. Hui, E. W-F. Lam, and P. J. Coffer Chronic Protein Kinase B (PKB/c-akt) Activation Leads to Apoptosis Induced by Oxidative Stress-Mediated Foxo3a Transcriptional Up-regulation. Cancer Res., November 15, 2006; 66(22): 10760 - 10769. [Abstract] [Full Text] [PDF]

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				G. Otaegi, M. J. Yusta-Boyo, E. Vergano-Vera, H. R. Mendez-Gomez, A. C. Carrera, J. L. Abad, M. Gonzalez, E. J. de la Rosa, C. Vicario-Abejon, and F. de Pablo Modulation of the PI 3-kinase-Akt signalling pathway by IGF-I and PTEN regulates the differentiation of neural stem/precursor cells J. Cell Sci., July 1, 2006; 119(13): 2739 - 2748. [Abstract] [Full Text] [PDF]

				A. Baudry, Z.-Z. Yang, and B. A. Hemmings PKB{alpha} is required for adipose differentiation of mouse embryonic fibroblasts J. Cell Sci., March 1, 2006; 119(5): 889 - 897. [Abstract] [Full Text] [PDF]

				C. A. Granville, R. M. Memmott, J. J. Gills, and P. A. Dennis Handicapping the Race to Develop Inhibitors of the Phosphoinositide 3-Kinase/Akt/Mammalian Target of Rapamycin Pathway Clin. Cancer Res., February 1, 2006; 12(3): 679 - 689. [Abstract] [Full Text] [PDF]

				E. Fayard, L. A. Tintignac, A. Baudry, and B. A. Hemmings Protein kinase B/Akt at a glance J. Cell Sci., December 15, 2005; 118(24): 5675 - 5678. [Full Text] [PDF]

				Z.-Z. Yang, O. Tschopp, N. Di-Poi, E. Bruder, A. Baudry, B. Dummler, W. Wahli, and B. A. Hemmings Dosage-Dependent Effects of Akt1/Protein Kinase B{alpha} (PKB{alpha}) and Akt3/PKB{gamma} on Thymus, Skin, and Cardiovascular and Nervous System Development in Mice Mol. Cell. Biol., December 1, 2005; 25(23): 10407 - 10418. [Abstract] [Full Text] [PDF]