In vitro studies demonstrate that the effects of OPG include inhibition of differentiation, survival and osteoclast fusion, as well as stimulation of apoptosis of osteoclasts, thereby reducing the ability of bone resorption.
Moreover, the overexpression of OPG in mice or administration of OPG to normal rodents inhibits osteoclastogenesis, osteoclast activation and bone resorption, resulting in an osteopetrotic phenotype.22, 25 and 29 In cystic lesions, this finding (OPG > RANKL) may suggest a role of epithelial cells as a barrier in an attempt to restrict invasion into underlying bone and thus to prevent cystic expansion. In RC, this higher immunoexpression of OPG in the epithelium might be related to the abscess theory30 where inflammatory cells check details inside granulation tissue secrete RANKL and surrounding epithelial cells release
OPG in response to this increase in an attempt to restrict cystic expansion. Vernal et al.17 showed high RANKL levels in granulation tissue of periapical granulomas. One may suppose a role of these OPG-positive epithelial cells in the reestablishment of periapical tissue considering that in most cases of RC endodontic treatment is sufficient3 to permit regression of the cystic lesion. Hofbauer22 and Baud’huin et al.31 conducted in vivo experiments that suggested RANKL to be a pro-resorption factor. According to these authors, an increased expression of RANKL would be related to increased osteoclast activity, thus favouring resorption. Although GSK J4 cost Menezes et al.15 demonstrated a higher secretion of RANKL under inflammatory conditions, this increased secretion would not always guide the bone resorption process since the presence of the inhibitory receptor OPG would decisively influence the process of bone expansion and, furthermore, other bone metabolism-related factors may also be involved in this complex process. Comparison of the positive cells immunostaining for RANK, RANKL and OPG in the capsule of RC and DC showed a larger number of RANK- and RANKL-positive cells in the capsule of DC compared to the capsule of RC.
One may speculate that this higher immunoexpression observed in the capsule of DC is related Oxalosuccinic acid to a greater expansive potential of these cysts by indicating the presence of a larger number of osteoclast precursors expressing RANK that are able to interact with its specific receptors (RANKL), leading to osteoclast differentiation and maturation. The expression in nests of odontogenic epithelial cell also may have contributed to this greatest expression in fibrous capsule of DC. Moreover, the presence of hemorrhagic areas in the capsule of DC could be explained by increased vascular permeability which in turn may reflect the increased expression of vascular endothelial growth factor (VEGF), which in previous studies31, 32 and 33 were also overexpressed in the lining epithelium and in fibrous capsule.