Abstract
Chitosan, a natural cationic polysaccharide derived from crustaceans and shellfish shells, is known for its advantageous biological properties, including biodegradability, biocompatibility, and antibacterial activity. Chitosan and its composite materials are studied for their potential for bone tissue repair. However, the effects of chitosan degradation products, glucosamine (GlcN) and chitosan oligosaccharide (COS), on osteoclasts remain unclear. If these chitosan degradation products promote osteoclastic differentiation, careful consideration is required for the use of chitosan and related materials in bone repair applications. Here, we assessed the effects of high (500 μg/mL) and low (0.5 μg/mL) concentrations of GlcN and COS on osteoclastic differentiation in human peripheral blood mononuclear cells (PBMCs) and murine macrophage-like RAW264 cells. A tartrate-resistant acid phosphatase (TRAP) enzyme activity assay, TRAP staining, and actin staining were used to assess osteoclastic differentiation. High concentrations of GlcN and COS, but not low concentrations, suppressed macrophage colony-stimulating factor (M-CSF)- and RANKL-dependent increases in TRAP enzyme activity, TRAP-positive multinuclear osteoclast formation, and actin ring formation in PBMCs without cytotoxicity. Similar effects were observed in the RANKL-dependent osteoclastic differentiation of RAW264 cells. In conclusion, chitosan degradation products do not possess osteoclast-inducing properties, suggesting that chitosan and its composite materials can be safely used for bone tissue repair.
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