Abstract
Summary Statement
The Dkk3-derived cells represent a branch of the periosteal mesenchymal lineage that produces fibrocartilage as well as regenerating the periosteal structures.
Introduction
Mesenchymal progenitor cells are capable of generating a wide variety of mature cells that constitute the connective tissue system. Our Laboratory has been developing SMAA GFP reporter mice to prove to be an effective tool for identifying these cells prior to the expression of markers of differentiation characteristic of bone, fat, muscular blood vessels or fibrocartilage. Dkk3 was chosen as a candidate reporter because microarray of SMAA-sorted cells culture indicated high expression of this non-canonical anti-Wnt factor, which was not anticipated in a culture with strong osteogenic potential.
Material and Methods
Fracture healing process was evaluated in 12 week old male mice at 3, 5, 7, 14, 21 and 28days post fracture. A 3 color reporter mouse was generated by crossing SMAA-GFPcherry × Col3.6GFPcyan × Dkk3-eGFP and subjected to tibial fracture. A closed transverse fracture was performed by Einhorn device under isoflurane anesthesia after insertion of intramedullary pinning. Longitudinal 5 mm non-calcified cryosections were stabilised with Cryofilm tape.
Results
Three days post fracture, the proliferating SMAA-red cells were also beginning to express either Dkk3 or Col3.6. By day 5 the two populations had diverged with the Dkk3 cells being on the outer surface of the developing callus while the Col3.6 cells were forming bone at the base of the callus. By day 7 when the callus is filled with cartilage, Dkk3 is active in cells that are in transition from elongated cells on the external surface of the callus to fibrocartilagenous cells that now express low levels of Col3.6. The zone of cells that express Dkk3 appear to block the passage of the surrounding vasculature into the underlying cartilage and does not deposit fibronectin. By day 14–21 when the cartilage core is resorbed, the only remaining Dkk3 is located in the newly formed periosteum external to the active endocortical bone forming activity associated with the inward remodeling of the outer cortical shell.
Discussion
We interpret these findings that Dkk3 marks a non-osteogenic limb of the SMAA progenitor population that within the fracture partitions the osteogenic signals away from the surrounding skeletal muscle and the underlying differentiating fibrocartilage. It is a progenitor to cells that form fibrocartilage in the fracture zone as well as the tenascin C positive cells that populate the fibrous zone of the periosteum, and it resides in the cambial zone of the periosteum. Knowing the biological and molecular function of these cells should lead to a fuller appreciation of the pro- and anti-osteogenic factors that regulate skeletal repair.