Pharmacologic Inhibition of the TGF-I2 Type I Receptor Kinase Has Anabolic and Anti-Catabolic Effects on Bone

During development, growth factors and hormones cooperate to establish the unique sizes, shapes and material properties of individual bones. Among these, TGF-I2 has been shown to developmentally regulate bone mass and bone matrix properties. However, the mechanisms that control postnatal skeletal in...

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Veröffentlicht in:	PloS one 2008-01, Vol.4 (4), p.e5275-e5275
Hauptverfasser:	Mohammad, Khalid S, Chen, Carol G, Balooch, Guive, Stebbins, Elizabeth, McKenna, CRyan, Davis, Holly, Niewolna, Maria, Peng, Xiang Hong, Nguyen, Daniel HN, Ionova-Martin, Sophi S, Bracey, John W, Hogue, William R, Wong, Darren H, Ritchie, Robert O, Suva, Larry J, Derynck, Rik, Guise, Theresa A, Alliston, Tamara, Calbet, Jose AL
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creator	Mohammad, Khalid S Chen, Carol G Balooch, Guive Stebbins, Elizabeth McKenna, CRyan Davis, Holly Niewolna, Maria Peng, Xiang Hong Nguyen, Daniel HN Ionova-Martin, Sophi S Bracey, John W Hogue, William R Wong, Darren H Ritchie, Robert O Suva, Larry J Derynck, Rik Guise, Theresa A Alliston, Tamara Calbet, Jose AL
description	During development, growth factors and hormones cooperate to establish the unique sizes, shapes and material properties of individual bones. Among these, TGF-I2 has been shown to developmentally regulate bone mass and bone matrix properties. However, the mechanisms that control postnatal skeletal integrity in a dynamic biological and mechanical environment are distinct from those that regulate bone development. In addition, despite advances in understanding the roles of TGF-I2 signaling in osteoblasts and osteoclasts, the net effects of altered postnatal TGF-I2 signaling on bone remain unclear. To examine the role of TGF-I2 in the maintenance of the postnatal skeleton, we evaluated the effects of pharmacological inhibition of the TGF-I2 type I receptor (TI2RI) kinase on bone mass, architecture and material properties. Inhibition of TI2RI function increased bone mass and multiple aspects of bone quality, including trabecular bone architecture and macro-mechanical behavior of vertebral bone. TI2RI inhibitors achieved these effects by increasing osteoblast differentiation and bone formation, while reducing osteoclast differentiation and bone resorption. Furthermore, they induced the expression of Runx2 and EphB4, which promote osteoblast differentiation, and ephrinB2, which antagonizes osteoclast differentiation. Through these anabolic and anti-catabolic effects, TI2RI inhibitors coordinate changes in multiple bone parameters, including bone mass, architecture, matrix mineral concentration and material properties, that collectively increase bone fracture resistance. Therefore, TI2RI inhibitors may be effective in treating conditions of skeletal fragility.
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TI2RI inhibitors achieved these effects by increasing osteoblast differentiation and bone formation, while reducing osteoclast differentiation and bone resorption. Furthermore, they induced the expression of Runx2 and EphB4, which promote osteoblast differentiation, and ephrinB2, which antagonizes osteoclast differentiation. Through these anabolic and anti-catabolic effects, TI2RI inhibitors coordinate changes in multiple bone parameters, including bone mass, architecture, matrix mineral concentration and material properties, that collectively increase bone fracture resistance. Therefore, TI2RI inhibitors may be effective in treating conditions of skeletal fragility.</abstract><doi>10.1371/journal.pone.0005275</doi></addata></record>
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title	Pharmacologic Inhibition of the TGF-I2 Type I Receptor Kinase Has Anabolic and Anti-Catabolic Effects on Bone
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