RESUMO
SUMMARY Introduction: osteoprotegerin has emerged as a new candidate for the treatment of osteoporosis. However, high levels of osteoprotegerin have been linked to vascular calcification, an independent and well-defined risk factor for cardiovascular disease (CVD) and mortality. Thus, the action of osteoprotegerin in these situations has been questioned. Objective: to evaluate the effect of osteoprotegerin (OPG) on the human body, especially in bone tissue and in vascular diseases. Methods: the scientific databases consulted were PubMed-Medline and Cochrane, using keywords (MeSH terms) grouped into the following syntaxes: (Osteoprotegerin OR Osteoclastogenesis Inhibitory Factor OR Receptors, Tumor Necrosis Factor, Member 11b OR Tumor Necrosis Factor Receptor Superfamily, Member 11b OR FDCR-1 Protein OR FDCR 1 Protein OR OCIF Protein OR Follicular Dendritic Cell-Derived Receptor-1) AND (Bones AND Bone OR Bones AND Bone Tissue OR Bones OR Bone Tissue OR Cardiovascular Diseases). Results: Osteoprotegerin is present in various organs and binds to two ligands: nuclear factor kB (RANKL) related to the differentiation of osteoclasts, and tumor necrosis factor related to the apoptosis-inducing ligand (TRAIL). OPG inhibits the regulation effects of nuclear factor kB on inflammation and on the skeletal and vascular systems, preventing the apoptosis induced by TRAIL, being related to the preservation of bone tissue. Conclusion: a deeper knowledge of the mechanisms involved in the association between OPG serum levels, bone integrity and cardiovascular disease can provide important data for future therapeutic interventions.
RESUMO Introdução: a osteoprotegerina (OPG) tem surgido como uma nova candidata para o tratamento da osteoporose; no entanto, níveis elevados de OPG têm sido relacionados à calcificação vascular, um fator de risco independente e bem definido para doença cardiovascular (DCV) e mortalidade. Assim, a ação da OPG nessas situações tem sido questionada. Objetivo: avaliar a ação da OPG no corpo humano, em especial no tecido ósseo e nas doenças vasculares. Métodos: as bases de informação científica consultadas foram PubMed-Medline e Cochrane, utilizando-se palavras-chave (MeSH terms) agrupadas nas seguintes sintaxes: (Osteoprotegerin OR Osteoclastogenesis Inhibitory Factor OR Receptors, Tumor Necrosis Factor, Member 11b OR Tumor Necrosis Factor Receptor Superfamily, Member 11b OR FDCR-1 Protein OR FDCR 1 Protein OR OCIF Protein OR Follicular Dendritic Cell-Derived Receptor-1) AND (Bones AND Bone OR Bones AND Bone Tissue OR Bones OR Bone Tissue OR Cardiovascular Diseases). Resultados: a OPG está presente em vários órgãos e une-se a dois ligantes: o fator nuclear kB (RANKL), relacionado com a diferenciação dos osteoclastos, e o fator de necrose tumoral, relacionado ao ligante indutor de apoptose (TRAIL). Assim, a OPG inibe os efeitos da regulação do fator nuclear kB na inflamação e nos sistemas esquelético e vascular, prevenindo a apoptose induzida pelo TRAIL, estando relacionada com a preservação do tecido ósseo. Conclusão: um conhecimento mais aprofundado sobre os mecanismos envolvidos na associação entre os níveis séricos da OPG, integridade óssea e doenças cardiovasculares podem proporcionar dados importantes para futuras intervenções terapêuticas.