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Immunology - Pediatrics and Child Health - Physiology - Surgery


Accelerated Calvarial Healing in Mice Lacking Toll-Like Receptor 4
Published: Wednesday, October 10, 2012
Author: Dan Wang et al.

by Dan Wang, James R. Gilbert, James J. Cray, Adam A. Kubala, Melissa A. Shaw, Timothy R. Billiar, Gregory M. Cooper

The bone and immune systems are closely interconnected. The immediate inflammatory response after fracture is known to trigger a healing cascade which plays an important role in bone repair. Toll-like receptor 4 (TLR4) is a member of a highly conserved receptor family and is a critical activator of the innate immune response after tissue injury. TLR4 signaling has been shown to regulate the systemic inflammatory response induced by exposed bone components during long-bone fracture. Here we tested the hypothesis that TLR4 activation affects the healing of calvarial defects. A 1.8 mm diameter calvarial defect was created in wild-type (WT) and TLR4 knockout (TLR4-/-) mice. Bone healing was tested using radiographic, histologic and gene expression analyses. Radiographic and histomorphometric analyses revealed that calvarial healing was accelerated in TLR4-/- mice. More bone was observed in TLR4-/- mice compared to WT mice at postoperative days 7 and 14, although comparable healing was achieved in both groups by day 21. Bone remodeling was detected in both groups on postoperative day 28. In TLR4-/- mice compared to WT mice, gene expression analysis revealed that higher expression levels of IL-1ß, IL-6, TNF-a,TGF-ß1, TGF-ß3, PDGF and RANKL and lower expression level of RANK were detected at earlier time points (= postoperative 4 days); while higher expression levels of IL-1ß and lower expression levels of VEGF, RANK, RANKL and OPG were detected at late time points (> postoperative 4 days). This study provides evidence of accelerated bone healing in TLR4-/- mice with earlier and higher expression of inflammatory cytokines and with increased osteoclastic activity. Further work is required to determine if this is due to inflammation driven by TLR4 activation.
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