Cementum matrix formation in vivo by cultured dental follicle cells.

Dental follicle is the fibrous tissue that surrounds the developing tooth germ, and it is believed to contain progenitors for cementoblasts, periodontal ligament cells, and osteoblasts. In this study, we report the presence of cementoblast progenitors in cultures of bovine dental follicle cells and demonstrate their differentiation capacity. Bovine dental follicle cells (BDFC) obtained from tooth germs by collagenase digestion were compared with bovine alveolar bone osteoblasts (BAOB) and bovine periodontal ligament cells (BPDL) in vitro and in vivo. In culture, BDFC exhibited low levels of alkaline phosphatase activity and expressed mRNA for osteopontin (OP) and type I collagen (COLI), as well as low levels of osteocalcin (OC) mRNA. In contrast, cultured BAOB exhibited high alkaline phosphatase activity levels and expressed mRNA for OC, OP, COLI, and bone sialoprotein (BSP). To elucidate the differentiation capacity of BDFC in vivo, cells were transplanted into severe combined immunodeficiency (SCID) mice and analyzed after 4 weeks. Transplanted BDFC formed fibrous tissue and cementum-like matrix, which stained positive for anti-cementum attachment protein (CAP) monoclonal antibody (3G9), and expressed mRNA for OC, OP, COLI, and BSP. On the other hand, transplanted BAOB formed bone-like matrix, but were negative for anti-CAP monoclonal antibody. The BPDL transplants formed fibrous tissue that contained a few cells expressing CAP. These results indicate that cementoblast progenitors are present in BDFC, which can provide a useful model for investigating the molecular mechanisms of cementogenesis.

Demonstration of a precursor-product relationship between soluble and cross-linked elastin, and the biosynthesis of the desmosines in vitro.

Direct evidence showing that a soluble form of elastin is the precursor of cross-linked elastin was obtained from pulse-chase experiments using chick embryo aortas and by demonstrating the conversion of soluble elastin into cross-linked elastin in a cell-free system. Acetic acid extracts of embryonic chick aorta pulse-labeled with [14C]lysine contain two radioactive proteins of molecular weights 74,000 and 138,000 which have been identified previously as soluble elastin and the pro-alpha chain of collagen, respectively. In pulse-chase experiments, the radioactivity incorporated in the soluble elastin during the pulse with [14C]lysine disappeared during a 24-hour chase with [12C]lysine and 89% of that which disappeared was accounted for in the desmosines of alkali-insoluble elastin. The disappearance of the radioactivity from the soluble fraction and its appearance in the desmosines of elastin were inhibited by beta-aminopropionitrile, a specific inhibitor of the cross-linking enzyme lysyl oxidase. In addition in vitro experiments, it was shown that the radioactivity in the desmosines of elastin can arise from that present in an acid-soluble precursor protein. This precursor protein is soluble elastin, as demonstrated by the formation of desmosines when a homogeneous preparation of soluble elastin was incubated with purified lysyl oxidase.