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Kindlin-2 deletion in osteoprogenitors causes severe chondrodysplasia and low-turnover osteopenia in mice

Xiaohao Wu, Minghao Qu, Weiyuan Gong, Chunlei Zhou, Yumei Lai, Guozhi Xiao

2021Journal of Orthopaedic Translation29 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Our recent studies demonstrate that the focal adhesion protein Kindlin-2 exerts crucial functions in the mesenchymal stem cells, mature osteoblasts and osteocytes in control of early skeletal development and bone homeostasis in mice. However, whether Kindlin-2 plays a role in osteoprogenitors remains unclear. MATERIALS AND METHODS: ) and control littermates were isolated and determined for their osteoblastic differentiation capacity. RESULTS: Kindlin-2 was highly expressed in osteoprogenitors during endochondral ossification. Deleting Kindlin-2 expression in osteoprogenitors impaired both intramembranous and endochondral ossifications. Mutant mice displayed multiple severe skeletal abnormalities, including unmineralized fontanel, limb shortening and growth retardation. Deletion of Kindlin-2 in osteoprogenitors impaired the growth plate development and largely delayed formation of the secondary ossification center in the long bones. Furthermore, adult mutant mice displayed a severe low-turnover osteopenia with a dramatic decrease in bone formation which exceeded that in bone resorption. Primary BMSCs isolated from mutant mice exhibited decreased osteoblastic differentiation capacity. CONCLUSIONS: Our study demonstrates an essential role of Kinlind-2 expression in osteoprogenitors in regulating skeletogenesis and bone mass accrual and homeostasis in mice. THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE: This study reveals that Kindlin-2 through its expression in osteoprogenitor cells controls chondrogenesis and bone mass. We may define a novel therapeutic target for treatment of skeletal diseases, such as chondrodysplasia and osteoporosis.

Topics & Concepts

Endochondral ossificationIntramembranous ossificationChondrogenesisOsteoblastBone remodelingEndocrinologyCell biologyInternal medicineOssificationMesenchymal stem cellBone marrowBiologyMedicineCartilageAnatomyGeneticsIn vitroCell Adhesion Molecules ResearchConnective tissue disorders researchSkin and Cellular Biology Research