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Research

THE MEK5/ERK5 MAPK CASCADE IS AN EFFECTOR PATHWAY OF BONE-SUSTAINING BISPHOSPHONATES THAT REGULATES BONE HOMEOSTASIS

The European Orthopaedic Research Society (EORS) 25th Annual and Anniversary Meeting, Munich, Germany, September 2017. Part 2 of 2.



Abstract

Background/Aims

Bisphosphonates play an important role in the treatment of catabolic bone diseases such as osteoporosis. In addition to their anti-resorptive activity exerted by their proapoptotic effect on osteoclasts, recent data suggest that nitrogen-containing bisphosphonates (N-BP) may also promote osteogenic differentiation by an unknown mechanism. Similar bone-anabolic effects have been attributed to cholesterol-lowering statins, which represent another class of mevalonate pathway inhibitors besides N-BP, suggesting a common mode of action. In vascular endothelial cells statins were recently shown to activate the Mek5/Erk5 mitogen-activated protein kinase cascade, which plays an important role in cellular differentiation, apoptosis or inflammatory processes. Here we evaluated whether N-BPs may also target the Mek5/Erk5 pathway and analysed the consequence of Erk5 activation on bone-relevant gene expression, calcification and osteoblast differentiation.

Methods and Results

We show that N-BP dose-dependently activate Erk5 in primary human endothelial cells and osteoblasts. The mechanism likely involves farnesyldiphosphate synthase (FDPS) inhibition and subsequent inactivation of the small GTPase Cdc42 since siRNA-mediated knockdown of both genes could reproduce N-BP-induced ERK5 activation. ERK5 activation resulted in regulation of several bone-relevant genes and was required for calcification and osteoblastic differentiation of mesenchymal stems cells as evident by the lack of alkaline phosphatase induction and alizarin-red staining observed upon Erk5 knockdown or upon differentiation initiation in presence of a pharmacological Erk5 inhibitor.

Conclusion

Our data provide first evidence that N-BP activate the Mek5/Erk5 cascade and reveal an essential role of Erk5 in the regulation of bone homeostasis by influencing bone mineralization and osteoblast differentiation.


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