Abstract
Injury of the periodontium followed by inflammatory response often leads to root resorption. Resorption is accomplished by osteoclasts and their generation may depend on an interaction with the cells in direct contact with the root, the cementoblasts. Our study aimed to investigate the role of human cementoblasts in the formation of osteoclasts and the effect of interleukin (IL)-1β hereupon. Extracted teeth from healthy volunteers were subjected to sequential digestion by type I collagenase and trypsin. The effect of enzymatic digestion on the presence of cells on the root surface was analyzed by histology. Gene expression of primary human cementoblasts (pHCB) was compared with a human cementoblast cell line (HCEM). The pHCBs were analyzed for their expression of IL-1 receptors as well as of receptor activator of nuclear factor kappa-B ligand (RANKL) and osteoprotegerin (OPG). In a co-culture system consisting of osteoclast precursors (blood monocytes) and pHCBs, the formation of osteoclasts and their resorptive activity was assessed by osteo-assay and ivory slices. The cells obtained after a 120 min enzyme digestion expressed the highest level of bone sialoprotein, similar to that of HCEM. This fraction of isolated cells also shared a similar expression pattern of IL-1 receptors (IL1-R1 and IL1-R2). Treatment with IL-1β potently upregulated RANKL expression but not of OPG. pHCBs were shown to induce the formation of functional osteoclasts. This capacity was significantly stimulated by pretreating the pHCBs with IL-1β prior to their co-culture with human blood monocytes. Our study demonstrated that cementoblasts have the capacity to induce osteoclastogenesis, a capacity strongly promoted by IL-1β. These results may explain why osteoclasts can be formed next to the root of teeth.
Highlights
Bone and cementum share some similar characteristics such as structure and composition and the cells responsible for their formation, osteoblasts and cementoblasts, are quite alike
Our study, for the first time, demonstrated the capacity of primary human cementoblasts to induce the formation of functional osteoclasts
We found that cementoblasts had the capacity to induce multinucleated Tartrate-resistant acid phosphatase (TRAcP)-positive cells that resorbed a mineralized substratum
Summary
Bone and cementum share some similar characteristics such as structure and composition and the cells responsible for their formation, osteoblasts and cementoblasts, are quite alike. Cementoblasts express genes similar to those expressed by osteoblasts such as type I collagen, bone sialoprotein (BSP), osteopontin, dentin matrix acidic phosphoprotein 1 (DMP-1), osteocalcin and bone gla protein.[1] Yet, there is at least one unique difference between the two mineralized tissues: bone is remodeled, whereas cementum is not. Under physiological conditions, both cellular and acellular cementum increase slowly in thickness, but the tissue is not digested similar to bone. As an effect of tissue injury induced by trauma, root resorption can occur
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