Research Project
10316864
PROJECT SUMMARY Skeletal stem cells (SSCs) are necessary for the homeostasis and repair of bone and cartilage. In craniofacial bones, periosteal skeletal stem/progenitor cells (P-SSCs) and suture mesenchymal cells play a critical role in bone homeostasis and regeneration. However, due to the restricted distribution and lack of specific markers, little is known about the function of craniofacial P-SSCs and about their specific regulatory mechanisms in homeostasis and response to bone injury. Patients with Osteogenesis Imperfecta (OI) have dysregulation of craniofacial and skeletal bone homeostasis. WNT1 mutations cause recessive OI and early onset osteoporosis and our preliminary data support altered craniofacial stem cell function. Therefore, the main objective of this research proposal is to define the in vivo characteristics and unique regulatory mechanisms of craniofacial P-SSCs, and to test if Wnt1 and ?-sclerostin antibody augmentation of Wnt signaling in general are critical for these P-SSCs' response to bone injury. We hypothesize that craniofacial P-SSCs have unique molecular characteristics compared to long bone P-SSCs and that the regulation of these P-SSCs by Wnt1 is critical for craniofacial bone homeostasis, regeneration and repair. In combination with previously known SSC markers, we have newly identified selective markers for P-SSCs that enables us to isolate highly purified mouse P-SSCs and to analyze their gene expression profiles and to test their bone forming ability by transplantation of these P-SSCs into calvarial defects. We thus propose to answer the below questions in achieving the specific aims: Specific Aim 1: What are unique characteristics and function of craniofacial P- SSCs compared to long-bone P-SSCs. Specific Aim 2: How does Wnt1 signaling regulate the maintenance and function of craniofacial P-SSCs? Specific Aim 3: What are the functional consequences of loss or gain of Wnt1, and ?-sclerostin therapy on craniofacial bone regeneration? These studies will identify factors that regulate the specification of SSC from different calvarial and long bone sources and the contribution of Wnt1 and effects of ?-Sost treatment in regulating bone formation, and the proliferation, migration, and differentiation of neural crest derived-sutural vs. periosteal SSCs in homeostasis and repair.
