Mesodermal and neural crest derived ovine tibial and mandibular osteoblasts display distinct molecular differences

- Compared to tibial osteoblasts, mandibular osteoblast express higher Hoxa4 levels.
- Collagen I and osteopontin expression is higher in juvenile osteoblasts.
- Osteocalcin expression is higher in tibial when compared to mandibular osteoblasts.
- CCDC80 base levels detected in tibial cells are higher than in mandibular cells.
- TGF-β1 and BAMBI expression is higher in tibial when compared to mandibular cells.

Mandibular osteoblasts originate from the neural crest and deposit bone intramembranously, mesoderm derived tibial osteoblasts by endochondral mechanisms. Bone synthesized by both cell types is identical in structure, yet functional differences between the two cell types may exist. Thus, both matched juvenile and adult mandibular and tibial osteoblasts were studied regarding their proliferative capacity, their osteogenic potential and the expression of osteogenic and origin related marker genes. Juvenile tibial cells proliferated at the highest rate while juvenile mandibular cells exhibited higher ALP activity depositing more mineralized matrix. Expression of Hoxa4 in tibial cells verified their mesodermal origin, whereas very low levels in mandibular cells confirmed their ectodermal descent. Distinct differences in the expression pattern of bone development related genes (collagen type I, osteonectin, osteocalcin, Runx2, MSX1/2, TGF-β1, BAMBI, TWIST1, β-catenin) were found between the different cell types. The distinct dissimilarities in proliferation, alkaline phosphatase activity, the expression of characteristic genes, and mineralization may aid to explain the differences in bone healing time observed in mandibular bone when compared to long bones of the extremities.