The process of bone regeneration after fracture is a complex and well-orchestrated process usually requiring 3-12 weeks. A subset of patients, however, exhibit delayed healing time and even incomplete restoration of the normal bone structure. Although the precise mechanism is unknown, studies have shown that smurf1 may play a role during the process. Here, we sought to determine the involvement of the immune system in impaired bone healing. We found that immediately after fracture, the B-cell composition was shifted toward increased frequency of plasmablasts and decreased frequency of naïve B cells, reflecting higher inflammatory status. The percentage of CD19(+) CD24(+) CD38(+) regulatory B cells was also upregulated in response to bone fracture. The production of IL-10, a pivotal cytokine in regulatory B-cell function, was upregulated in all patients. Interestingly, the increase in IL-10 production was only sustained throughout the healing course in normal healing patients but not in delayed healing patients. Rather, delayed healing patients downregulated B-cell IL-10 secretion early and had reduced level of regulatory B-cell activity. Together, these data revealed a role of regulatory B cells in the endogenous bone regeneration process and an alternation in B-cell-mediated regulation in delayed healing patients.
Keywords: B cell; IL-10; bone fracture.
© 2015 APMIS. Published by John Wiley & Sons Ltd.