Alteration of tooth movement by reveromycin A in osteoprotegerin-deficient mice.

INTRODUCTION: Osteoprotegerin-deficient mice develop severe high-turnover osteoporosis with porous low-density trabecular bone from an age-related increase in osteoclast activity and are useful alveolar bone models of osteoporosis or frail periodontal tissue. Bisphosphonate (BP), a first-line drug for osteoporosis, is bone-avid, causing side effects such as brittle and fragile bones and jaw osteonecrosis after tooth extraction. In orthodontics, active movement is precisely controlled by temporarily suppressing and resuming movement. BP impedes such control because of its long half-life of several years in bone. Therefore, we investigated the novel osteoclast-specific inhibitor reveromycin A (RMA), which has a short half-life in bone. We hypothesized that tooth movement could be precisely controlled through temporary discontinuation and re-administration of RMA. METHODS: Osteoprotegerin-deficient mice and wild-type mice were developed as tooth movement models under constant orthodontic force. A constant orthodontic force of 10 g was induced using a nickel-titanium closed coil spring to move the maxillary first molar for 14 days. We administered BP (1.25 mg/kg) or RMA (1.0 mg/kg) continuously and then discontinued it to reveal how the subsequent movement of teeth and surrounding alveolar bone was affected. RESULTS: Continuous BP or RMA administration suppressed osteoclast activity and preserved alveolar bone around the roots, apparently normalizing bone metabolism. Tooth movement remained suppressed after BP discontinuation but resumed at a higher rate after discontinuation of RMA. CONCLUSIONS: RMA appears useful for controlling orthodontic tooth movement because it can be suppressed and resumed through administration and discontinuation, respectively.

Reveromycin A Administration Prevents Alveolar Bone Loss in Osteoprotegerin Knockout Mice with Periodontal Disease.

Chronic periodontal disease is characterized by alveolar bone loss and inflammatory changes. Reveromycin A (RMA) was recently developed and is a unique agent for inhibiting osteoclast activity. This study analysed the effects of RMA in an experimental mouse model of periodontitis involving osteoprotegerin (OPG)-knockout mice, specifically, whether it could control osteoclasts and reduce inflammation in periodontal tissue. We examined wild-type (WT) and OPG knockout mice (OPG KO) ligated with wire around contact points on the left first and second molars. RMA was administered twice a day to half of the mice. Using micro-computed tomography, we measured the volume of alveolar bone loss between the first and second molars, and also performed histological analysis. The OPG KO RMA+ group had significantly decreased osteoclast counts, alveolar bone loss, attachment loss, and inflammatory cytokine expression 8 weeks after ligation. Thus, RMA may reduce alveolar bone loss and inflamed periodontal tissues in patients with periodontitis.

Stabilization of tooth movement by administration of reveromycin A to osteoprotegerin-deficient knockout mice.

INTRODUCTION: In this study, mechanical stress in the form of tooth movement was applied to osteoprotegerin-deficient knockout mice, which served as an animal model for juvenile Paget's disease. To compare and evaluate bone turnover and response of the surrounding bony tissue, we administered reveromycin A. We also investigated the ability of reveromycin A to control osteoclastic activity in juvenile Paget's disease. METHODS: Eight-week-old male osteoprotegerin-deficient knockout and wild-type mice were injected with reveromycin A (15 mg/kg of body weight) intraperitoneally twice daily. An elastic module was inserted interproximally between the maxillary left first and second molars. RESULTS: Administration of reveromycin A to osteoprotegerin-deficient knockout mice reduced tooth movement distances, increased bone volumes at the interradicular septum, decreased osteoclast counts, and reduced serum alkaline phosphatase and tartrate resistant acid phosphatase. Reveromycin A administration also caused a temporal shift in peak Runx2 staining in osteoprotegerin-deficient knockout mice so that the overall staining time course was similar to that observed for wild-type mice. CONCLUSIONS: Reveromycin A administration in osteoprotegerin-deficient knockout mice inhibited bone resorption and normalized bone formation. As a result, normal bone turnover was obtained.