Role for Akt3/Protein Kinase Bγ in Attainment of Normal Brain Size-Reference-Cited by-全球学者库

Role for Akt3/Protein Kinase Bγ in Attainment of Normal Brain Size

Published:2005-03 Issue:5 Volume:25 Page:1869-1878
ISSN:0270-7306
Container-title:Molecular and Cellular Biology
language:en
Short-container-title:Mol Cell Biol

Author:

Easton Rachael M.¹,Cho Han¹²,Roovers Kristin¹,Shineman Diana W.³,Mizrahi Moshe⁴,Forman Mark S.³,Lee Virginia M.-Y.³,Szabolcs Matthias⁵,de Jong Ron⁶⁷,Oltersdorf Tilman⁶,Ludwig Thomas⁸⁹,Efstratiadis Argiris¹⁰⁹,Birnbaum Morris J.¹⁴

Affiliation:

1. Department of Medicine, Center for Neurodegenerative Disease Research

2. Department of Genetics, Dartmouth Medical School, Hanover, New Hampshire

3. Department of Pathology and Laboratory Medicine and Institute on Aging

4. Howard Hughes Medical Institute, University of Pennsylvania School of Medicine, Philadelphia, Pennsylvania

5. Departments of Pathology

6. IDUN Pharmaceuticals, Inc.

7. Syrrx, Inc., San Diego, California

8. Anatomy and Cell Biology

9. Institute for Cancer Genetics, Columbia University, New York, New York

10. Genetics and Development

Abstract

ABSTRACT Studies of Drosophila and mammals have revealed the importance of insulin signaling through phosphatidylinositol 3-kinase and the serine/threonine kinase Akt/protein kinase B for the regulation of cell, organ, and organismal growth. In mammals, three highly conserved proteins, Akt1, Akt2, and Akt3, comprise the Akt family, of which the first two are required for normal growth and metabolism, respectively. Here we address the function of Akt3. Like Akt1, Akt3 is not required for the maintenance of normal carbohydrate metabolism but is essential for the attainment of normal organ size. However, in contrast to Akt1 − / − mice, which display a proportional decrease in the sizes of all organs, Akt3 −/− mice present a selective 20% decrease in brain size. Moreover, although Akt1- and Akt3-deficient brains are reduced in size to approximately the same degree, the absence of Akt1 leads to a reduction in cell number, whereas the lack of Akt3 results in smaller and fewer cells. Finally, mammalian target of rapamycin signaling is attenuated in the brains of Akt3 −/− but not Akt1 −/− mice, suggesting that differential regulation of this pathway contributes to an isoform-specific regulation of cell growth.

Publisher

American Society for Microbiology

Subject

Cell Biology,Molecular Biology

Link

https://journals.asm.org/doi/pdf/10.1128/MCB.25.5.1869-1878.2005

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