Background: Synovitis is a major component of osteoarthritis and is driven primarily by macrophages. Synovial macrophages are crucial keepers of joint health by driving joint homeostasis, tissue repair and inflammation resolution (M2-like phenotype), but can also induce an inflammatory response (M1-like phenotype) when these regulatory functions are overwhelmed. Macrophage phenotypes in synovium from osteoarthritic and healthy joints are poorly characterized. Defining the patterns of synovial macrophage phenotypes in normal and osteoarthritic joints is paramount for developing targeted therapeutic approaches. The objective of this study was to compare patterns of macrophage activation phenotypes in healthy and osteoarthritic equine joints. We hypothesized that synovium from osteoarthritic joints would have increased M1-like:M2-like ratios compared to normal joints.
Methods: Gross evaluation of the articular surfaces, histology (H&E) and immunohistochemistry for M1-like (CD86), M2-like (CD206, IL-10), and pan macrophage (CD14) markers was performed on synovial biopsies from healthy (n=29) and osteoarthritic equine joints (n=26). Cytokines (MCP-1, IL-10, PGE 2 , IL-1β, IL-6, TNF-α, IL-1ra) and growth factors (GM-CSF, SDF-1α+β, IGF-1, and FGF-2) in synovial fluid were quantified.
Results: All macrophage markers were co-expressed in all joints with minimal differences between OA and normal joints. Intensity of expression varied with degree of synovial inflammation. CD14, CD86, CD206, and IL-10 were more highly expressed in grossly inflamed osteoarthritic synovium, with CD86 most highly expressed. Synovial fluid MCP-1 was higher in osteoarthritic joints while SDF-1 was lower. Overall, concentrations of synovial fluid IL-10 and PGE2 was not different between OA and normal joints. Increased CD14/CD86/CD206/Il-10 expression in the synovium was associated with synovial hyperplasia, consistent with macrophage recruitment and activation in response to higher demands for repair.
Conclusions: Macrophages are not as clearly defined in vivo as they are in vitro . The course of an effective response to injury in joints should start with inflammation and be followed inflammation resolution, both of which centrally driven by macrophages. Combined, our findings suggest that homeostatic mechanisms from synovial macrophages are impaired in OA, resulting in unresolved, chronic joint inflammation. Therapeutic approaches aimed at recovering mechanisms of macrophage-driven synovial homeostasis may be more effective in treating osteoarthritis than simply inhibiting inflammation.