RRC ID 36400
著者 Takeyama K, Chatani M, Takano Y, Kudo A.
タイトル In-vivo imaging of the fracture healing in medaka revealed two types of osteoclasts before and after the callus formation by osteoblasts.
ジャーナル Dev Biol
Abstract The fracture healing research, which has been performed in mammalian models not only for clinical application but also for bone metabolism, revealed that generally osteoblasts are induced to enter the fracture site before the induction of osteoclasts for bone remodeling. However, it remains unknown how and where osteoclasts and osteoblasts are induced, because it is difficult to observe osteoclasts and osteoblasts in a living animal. To answer these questions, we developed a new fracture healing model by using medaka. We fractured one side of lepidotrichia in a caudal fin ray without injuring the other soft tissues including blood vessels. Using the transgenic medaka in which osteoclasts and osteoblasts were visualized by GFP and DsRed, respectively, we found that two different types of functional osteoclasts were induced before and after osteoblast callus formation. The early-induced osteoclasts resorbed the bone fragments and the late-induced osteoclasts remodeled the callus. Both types of osteoclasts were induced near the surface on the blood vessels, while osteoblasts migrated from adjacent fin ray. Transmission electron microscopy revealed that no significant ruffled border and clear zone were observed in early-induced osteoclasts, whereas the late-induced osteoclasts had clear zones but did not have the typical ruffled border. In the remodeling of the callus, the expression of cox2 mRNA was up-regulated at the fracture site around vessels, and the inhibition of Cox2 impaired the induction of the late-induced osteoclasts, resulting in abnormal fracture healing. Finally, our developed medaka fracture healing model brings a new insight into the molecular mechanism for controlling cellular behaviors during the fracture healing.
巻・号 394(2)
ページ 292-304
公開日 2014-10-15
DOI 10.1016/j.ydbio.2014.08.007
PII S0012-1606(14)00398-4
PMID 25131195
MeSH Animals Bony Callus / physiology Bony Callus / ultrastructure Cell Movement / physiology Cyclooxygenase 2 / metabolism DNA Primers / genetics Fracture Healing / physiology* Green Fluorescent Proteins Image Processing, Computer-Assisted In Situ Hybridization Luminescent Proteins Microscopy, Confocal Microscopy, Electron, Transmission Models, Animal* Oryzias Osteoblasts / metabolism Osteoclasts / physiology* Osteoclasts / ultrastructure Reverse Transcriptase Polymerase Chain Reaction Tail / injuries
IF 2.896
引用数 18
WOS 分野 DEVELOPMENTAL BIOLOGY
リソース情報
メダカ OK-Cab (MT830) Database Tg(fli1:DsRed) (TG1361) TRAP-DsRed (TG1362)