Essential role of RSK2 in c-Fos–dependent osteosarcoma development
Jean-Pierre David, Denis Mehic, Latifa Bakiri, Arndt F. Schilling, Vice Mandic, Matthias Priemel, Maria Helena Idarraga, Markus O. Reschke, Oskar Hoffmann, Michael Amling, Erwin F. Wagner
Jean-Pierre David, Denis Mehic, Latifa Bakiri, Arndt F. Schilling, Vice Mandic, Matthias Priemel, Maria Helena Idarraga, Markus O. Reschke, Oskar Hoffmann, Michael Amling, Erwin F. Wagner
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Article Bone biology

Essential role of RSK2 in c-Fos–dependent osteosarcoma development

Abstract

Inactivation of the growth factor–regulated S6 kinase RSK2 causes Coffin-Lowry syndrome in humans, an X-linked mental retardation condition associated with progressive skeletal abnormalities. Here we show that mice lacking RSK2 develop a progressive skeletal disease, osteopenia due to impaired osteoblast function and normal osteoclast differentiation. The phenotype is associated with decreased expression of Phex, an endopeptidase regulating bone mineralization. This defect is probably not mediated by RSK2-dependent phosphorylation of c-Fos on serine 362 in the C-terminus. However, in the absence of RSK2, c-Fos–dependent osteosarcoma formation is impaired. The lack of c-Fos phosphorylation leads to reduced c-Fos protein levels, which are thought to be responsible for decreased proliferation and increased apoptosis of transformed osteoblasts. Therefore, RSK2-dependent stabilization of c-Fos is essential for osteosarcoma formation in mice and may also be important for human osteosarcomas.

Authors

Jean-Pierre David, Denis Mehic, Latifa Bakiri, Arndt F. Schilling, Vice Mandic, Matthias Priemel, Maria Helena Idarraga, Markus O. Reschke, Oskar Hoffmann, Michael Amling, Erwin F. Wagner

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Rsk2-deficient mice are osteopenic. (A) Histological analysis of vertebr...
Rsk2-deficient mice are osteopenic. (A) Histological analysis of vertebral bodies of 2-, 4-, and 28-week-old male wild-type and Rsk2–/y littermates and quantification of the bone volume (BV) relative to total volume (TV). (B) In vivo quantification of osteoclast, osteoblast, and osteocyte numbers in 28-week-old mice. (C) Decreased femoral thickness (left panel) and decreased biomechanical competence (right panel) of bones lacking Rsk2. Bone diameters in millimeters are indicated in the lower left corners. (D) Determination of the bone-formation rate. Rsk2-deficient and wild-type littermates were injected twice with calcein at 1-week intervals, and the distance between the 2 lines of fluorochrome (left panel) was measured for assessment of bone-formation rate (BFR) (right panel). (E) Toluidine blue staining of growth plates from 2-week-old wild-type and Rsk2–/y littermates (left panel), and quantitation of growth plate width in 2-, 4-, and 28-week-old mice. *P < 0.05. Magnification, ×25.