Conclusion
D2 is likely to be a candidate for an orally available therapeutic for a range of skeletal disorders.
Methods
To identify therapeutic candidates for skeletal disorders, peptide screening was performed. To validate the identified peptides, we performed a bone histomorphometric analysis with rat bone tissues and in vitro cell proliferation assays of skeletal cells. To understand the metabolism of the peptides, we performed a biochemical analysis, followed by in vitro assays for proliferation and differentiation of skeletal cells. We examined the therapeutic efficacy of the identified peptides with several mouse models representing skeletal disorders including bone fracture, osteoporosis, and osteogenesis imperfecta. In vivo therapeutic effects of the candidate were assessed with radiological analysis and mechanical property tests.
Results
We identified the egg yolk-derived functional peptide PF201. PF201 promoted in vivo bone formation in rodents and enhanced proliferation of osteoblasts and chondrocytes in vitro. D2, a metabolite of PF201, was present and circulated after digestion and absorption in the digestive tract. D2 had positive impacts on the proliferation and differentiation of mesenchymal stem cells and preosteoblasts. Oral administration of D2 accelerated bone healing in a mouse fracture model. D2 also improved bone strength and fracture healing under ovariectomy-induced osteoporotic conditions in mice, and D2 showed a therapeutic effect in a mouse OI model.