Small Molecule Inhibition of Transforming Growth Factor Beta Signaling Enables the Endogenous Regenerative Potential of the Mammalian Calvarium

Current approaches for the treatment of skeletal defects are suboptimal, principally because the ability of bone to repair and regenerate is poor. Although the promise of effective cellular therapies for skeletal repair is encouraging, these approaches are limited by the risks of infection, cellular...

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Bibliographic Details
Published in:Tissue engineering. Part A 2016-05, Vol.22 (9-10), p.77-720
Main Authors: Senarath-Yapa, Kshemendra, Li, Shuli, Walmsley, Graham G., Zielins, Elizabeth, Paik, Kevin, Britto, Jonathan A., Grigoriadis, Agamemnon E., Wan, Derrick C., Liu, Karen J., Longaker, Michael T., Quarto, Natalina
Format: Article
Language:English
Subjects:
Animals
Benzamides - pharmacology
Bone Morphogenetic Protein 2 - biosynthesis
Bone Regeneration - drug effects
Bones
Dioxoles - pharmacology
Gene Expression Regulation - drug effects
Growth factors
Humans
Mammals
Mice
Molecular biology
Original
Original Articles
Osteoblasts - metabolism
Osteoblasts - pathology
Signal Transduction - drug effects
Skull - injuries
Skull - metabolism
Skull - pathology
Smad6 Protein - biosynthesis
Tissue engineering
Transforming Growth Factor beta - antagonists & inhibitors
Transforming Growth Factor beta - metabolism
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Summary:Current approaches for the treatment of skeletal defects are suboptimal, principally because the ability of bone to repair and regenerate is poor. Although the promise of effective cellular therapies for skeletal repair is encouraging, these approaches are limited by the risks of infection, cellular contamination, and tumorigenicity. Development of a pharmacological approach would therefore help avoid some of these potential risks. This study identifies transforming growth factor beta (TGFβ) signaling as a potential pathway for pharmacological modulation in vivo . We demonstrate that inhibition of TGFβ signaling by the small molecule SB431542 potentiates calvarial skeletal repair through activation of bone morphogenetic protein (BMP) signaling on osteoblasts and dura mater cells participating in healing of calvarial defects. Cells respond to inhibition of TGFβ signaling by producing higher levels of BMP2 that upregulates inhibitory Smad6 expression, thus providing a negative feedback loop to contain excessive BMP signaling. Importantly, study on human osteoblasts indicates that molecular mechanism(s) triggered by SB431542 are conserved. Collectively, these data provide insights into the use of small molecules to modulate key signaling pathways for repairing skeletal defects.
ISSN:1937-3341
1937-335X
DOI:10.1089/ten.tea.2015.0527