Healthy alveolar bone is the cornerstone of oral function and oral treatment. Alveolar bone is highly dynamic during the entire lifespan and is affected by both systemic and local factors. Importantly, alveolar bone is subjected to unique occlusal force in daily life, and mechanical force is a powerful trigger of bone remodeling, but the effect of occlusal force in maintaining alveolar bone mass remains ambiguous. In this study, the Piezo1 channel is identified as an occlusal force sensor. Activation of Piezo1 rescues alveolar bone loss caused by a loss of occlusal force. Moreover, we identify Piezo1 as the mediator of occlusal force in osteoblasts, maintaining alveolar bone homeostasis by directly promoting osteogenesis and by sequentially regulating catabolic metabolism through Fas ligand (FasL)-induced osteoclastic apoptosis. Interestingly, Piezo1 activation also exhibits remarkable efficacy in the treatment of alveolar bone osteoporosis caused by estrogen deficiency, which is highly prevalent among middle-aged and elderly women. Promisingly, Piezo1 may serve not only as a treatment target for occlusal force loss-induced alveolar bone loss but also as a potential target for metabolic bone loss, especially in older patients.
Keywords: Piezo1; alveolar bone homeostasis; mechanical force; postmenopausal osteoporosis.
Daily occlusal force and estrogen synergistically maintain alveolar bone homeostasis. PIEZO1 in osteoblasts plays a critical role in sensing occlusal force and maintaining bone mass. PIEZO1 may promote osteoclastic apoptosis through osteoblast-secreted FasL through a PIEZO1-STAT3/ESR1-FasL pathway. Restoration of occlusal force with dental therapies as early as possible to prevent alveolar bone loss is the major priority in oral health care. PIEZO1 may serve as a potential target for bone metabolism disorders.
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