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Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 209 - 209
1 Jul 2014
Ishikawa M Ito H Yoshitomi H Murata K Shibuya H Furu M Kitaori T Nakamura T Matsuda S
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Summary Statement

MCP-1/ CCR2 axis at the early phase plays a pivotal role in the fracture healing. Inflammation plays a pivotal role in fracture healing. Among them, chemokines play key roles in inflammation. Monocyte chemotactic protein-1 (MCP-1), via its receptor C-C chemokine receptor 2 (CCR2), acts as a potent chemoattractant for various cells to promote migration from circulation to inflammation site. Thus, the importance of MCP-1/CCR2 axis in fracture healing has been suggested. However, the involvement of MCP-1/CCR2 axis tofracture site is not fully elucidated.

Results

PCR Array: The expression of MCP-1 and MCP-3 had increased on day 2 than 0 or 7 in the rib fracture healing. Immunohistochemistry Staining: To verify the localization of MCP-1 expression, we examined the Wild type (WT)-mouse rib fracture healing. We observed high expression of MCP-1 and MCP-3 at the periosteum and the endosteum on post-fracture day 3. In vivo Antagonist Study: To elucidate whether MCP-1/CCR2 axis is involved during the early phase of fracture healing, we continuously administered RS102895, CCR2 antagonist, before or after rib fracture. Micro-CT analysis showed delayed fracture healing in the before-group compared with both the control and after-group. On day 21, the hard callus volume in the before-group was significantly smaller than that in the control-group. Histological analysis showed that fractures in both the control and the after-groups were healed by day 21. In contrast, less of cartilage in the callus was observed in the before-group on day 7. Gain of Function: To examine the roles of MCP-1 at the periosteum and the endosteum during the fracture healing, we created a segmental bone graft exchanging model. The bone grafts were transplanted from MCP-1−/− mice to another MCP-1−/− mice (KO-to-KO). Micro-CT analysis showed that KO-to-KO transplantation led to the delay of fracture healing on day 21. Next, we created exchanging-bone graft models between MCP-1−/− and WT mice, in which a segmental bone derived from a WT mouse was transplanted into a host MCP-1−/− mouse (WT-to-KO). In contrast to KO-to-KO bone graft transplantation, the transplantation of WT-derived graft into host KO mouse resulted in a significant increase of new bone formation on day 21. Histological analysis revealed that marked and localised induction of MCP-1 expression in the periosteum and the endosteum around the WT-derived graft was observed in the host MCP-1−/− mouse. Loss of Function: To validate whether MCP-1 is a crucial chemokine for fracture healing, we created WT-to-WT and KO-to-WT bone graft models. When WT-donor graft was transplanted into WT-host, abundant new bone formation was observed around a WT-derived graft on day 21. In contrast, transplantation of KO-derived graft into WT-host resulted in a marked reduction of periosteal bone formation on a donor graft.