What is it about?
It’s been long known that extracellular matrix can affect the cellular responses to growth factors. But exactly how and why this occurs still remains elusive, especially for BMP2. One mechanism might be by increasing the local concentration of the growth factor presented to the cells. We previously showed that COMP is an extracellular matrix protein that can bind up to ten BMP2 or TGFbeta growth factors. This multivalent binding of BMP2 to COMP enhances the biological activity of BMP2. Here we apply this finding to a rat model of spinal fusion, and show that we can achieve an equivalent bone-inducing activity with a reduced amount of BMP2.
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Why is it important?
The growth factor BMP2 is used clinically to help form bone in difficult surgeries such as spinal fusions and fracture non-unions. In these surgeries, BMP2 is effective when used at milligram doses. However, this is roughly a million-fold more BMP2 than occurs naturally, and such great doses can lead to undesired side-effects. Clearly we need to better understand how BMP2 works and overcome this discrepancy in activities.
Perspectives
The environmental context determines how cells respond to a particular growth factor. Here we examine how extracellular matrix protein affects the bone-inducing response of BMP2, in a clinically relevant model of spinal fusion.
Professor Dominik R Haudenschild
Houston Methodist
Read the Original
This page is a summary of: Binding to COMP Reduces the BMP2 Dose for Spinal Fusion in a Rat Model, Spine, July 2016, Wolters Kluwer Health,
DOI: 10.1097/brs.0000000000001408.
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