Abstract
Developing novel anabolic agents for bone regeneration remains a clinical priority. Polydeoxyribonucleotide (PDRN) exhibits tissue-regenerative properties, but its direct cellular effects on bone remodeling remain unclear. This in vitro study investigated PDRN's effects on osteoblast (MC3T3-E1) and osteoclast (primary bone marrow-derived macrophages) differentiation. We evaluated metabolic activity, gene/protein expression, and specific differentiation markers using MTS, qRT-PCR, Western blotting, and functional assays (ALP, Alizarin Red S, TRAP, pit formation). In osteoblasts, PDRN dose-dependently modulated metabolic activity while upregulating the early transcription factor Runx2. PDRN significantly enhanced osteoblast differentiation, evidenced by increased ALP activity, elevated mineralized matrix deposition, and robust upregulation of osteocalcin and Runx2. Conversely, PDRN exhibited no direct effect on osteoclast precursor metabolic activity, differentiation, or resorptive function. These findings support a working hypothesis in which PDRN selectively promotes osteoblast differentiation without directly affecting osteoclastogenesis. While further pharmacological investigations are required to definitively elucidate the specific purinergic receptor mechanisms, our results highlight PDRN as a promising candidate anabolic agent for bone regeneration.