Dongzhe Song1, Shifeng Huang1, Linghuan Zhang1, Wei Liu1, Bo Huang1, Yixiao Feng1, Bo Liu1, Tong-Chuan He1, Dingming Huang1, Russell R Reid1. 1. From the State Key Laboratory of Oral Diseases and National Clinical Research Center for Oral Diseases and Department of Conservative Dentistry and Endodontics, West China Hospital of Stomatology, Sichuan University; the Ministry of Education Key Laboratory of Diagnostic Medicine and the Affiliated Hospitals of Chongqing Medical University; the Department of Clinical Laboratory Medicine, Second Affiliated Hospital of Nanchang University; the Molecular Oncology Laboratory, Department of Orthopaedic Surgery and Rehabilitation Medicine, and the Department of Surgery, Laboratory of Craniofacial Biology and Development, Section of Plastic Surgery, University of Chicago Medical Center.
Abstract
BACKGROUND: Several studies have verified that bone morphogenetic proteins (BMPs) may be involved in the development of craniosynostosis; little attention has been focused on the role of BMP9 in cranial suture biology. The authors investigated the role of BMP9 in suture progenitor cells. METHODS: The authors isolated and cultured prematurely fused and internal control patent suture progenitor cells from patients with nonsyndromic craniosynostosis. Overexpression of BMP9 was mediated by adenoviral vectors. Osteoblast and osteoclast differentiation-related markers were evaluated by staining techniques and touchdown quantitative polymerase chain reaction analysis. In vivo analysis of BMP9-induced suture progenitor cell osteogenesis was performed in an ectopic bone formation model. RESULTS: The authors demonstrated that the prematurely fused sutures have a higher endogenous expression of the osteogenic differentiation-related genes than patent sutures, whereas the same pattern of gene expression exists between fused and patent suture progenitor cells. Importantly, both patent and fused suture progenitor cells undergo osteogenic differentiation and express multiple lineage regulators and NELL-1 on BMP9 stimulation, whereas fused suture progenitor cells have a higher basal osteogenic potential than patent suture progenitor cells. BMP9 regulates the expression of osteoclast differentiation-related genes in suture progenitor cells. Forced BMP9 expression enhances the mineralization and maturity of ectopic bone formation of suture progenitor cells implanted in vivo. CONCLUSIONS: The authors' findings suggest that fused suture progenitor cells have elevated osteogenic potential. BMP9 could regulate the expression of multiple osteoblast and osteoclast differentiation-related genes, and NELL-1, in both suture progenitor cells, indicating that BMP9 may play a role in craniosynostosis.
BACKGROUND: Several studies have verified that bone morphogenetic proteins (BMPs) may be involved in the development of craniosynostosis; little attention has been focused on the role of BMP9 in cranial suture biology. The authors investigated the role of BMP9 in suture progenitor cells. METHODS: The authors isolated and cultured prematurely fused and internal control patent suture progenitor cells from patients with nonsyndromic craniosynostosis. Overexpression of BMP9 was mediated by adenoviral vectors. Osteoblast and osteoclast differentiation-related markers were evaluated by staining techniques and touchdown quantitative polymerase chain reaction analysis. In vivo analysis of BMP9-induced suture progenitor cell osteogenesis was performed in an ectopic bone formation model. RESULTS: The authors demonstrated that the prematurely fused sutures have a higher endogenous expression of the osteogenic differentiation-related genes than patent sutures, whereas the same pattern of gene expression exists between fused and patent suture progenitor cells. Importantly, both patent and fused suture progenitor cells undergo osteogenic differentiation and express multiple lineage regulators and NELL-1 on BMP9 stimulation, whereas fused suture progenitor cells have a higher basal osteogenic potential than patent suture progenitor cells. BMP9 regulates the expression of osteoclast differentiation-related genes in suture progenitor cells. Forced BMP9 expression enhances the mineralization and maturity of ectopic bone formation of suture progenitor cells implanted in vivo. CONCLUSIONS: The authors' findings suggest that fused suture progenitor cells have elevated osteogenic potential. BMP9 could regulate the expression of multiple osteoblast and osteoclast differentiation-related genes, and NELL-1, in both suture progenitor cells, indicating that BMP9 may play a role in craniosynostosis.
Authors: Xia Zhao; Bo Huang; Hao Wang; Na Ni; Fang He; Qing Liu; Deyao Shi; Connie Chen; Piao Zhao; Xi Wang; William Wagstaff; Mikhail Pakvasa; Andrew Blake Tucker; Michael J Lee; Jennifer Moriatis Wolf; Russell R Reid; Kelly Hynes; Jason Strelzow; Sherwin H Ho; Tengbo Yu; Jian Yang; Le Shen; Tong-Chuan He; Yongtao Zhang Journal: Am J Transl Res Date: 2021-05-15 Impact factor: 4.060