Abstract
Mounting evidence indicates that sclerostin, a well-known inhibitor of bone formation, may qualify as a clinically relevant biomarker of chronic kidney disease-related mineral and bone disorder (CKD-MBD), including abnormal mineral and bone metabolism and extraskeletal calcification. For this purpose, in this study we investigate the extent to which circulating sclerostin, skeletal sclerostin expression, bone histomorphometric parameters, and serum markers of bone metabolism associate with each other. Bone biopsies and serum samples were collected in a cohort of 68 end-stage kidney disease (ESKD) patients. Serum sclerostin levels were measured using 4 different commercially available assays. Skeletal sclerostin expression was evaluated on immunohistochemically stained bone sections. Quantitative bone histomorphometry was performed on Goldner stained tissue sections. Different serum markers of bone metabolism were analyzed using in-house techniques or commercially available assays. Despite large inter-assay differences for circulating sclerostin, results obtained with the 4 assays under study closely correlated with each other, whilst moderate significant correlations with skeletal sclerostin expression were also found. Both skeletal and circulating sclerostin negatively correlated with histomorphometric bone and serum parameters reflecting bone formation and turnover. In this study, the unique combined evaluation of bone sclerostin expression, bone histomorphometry, bone biomarkers, and serum sclerostin levels, as assessed by 4 different assays, demonstrated that sclerostin may qualify as a clinically relevant marker of disturbed bone metabolism in ESKD patients.
Highlights
Sclerostin is a secreted glycoprotein that is encoded by the SOST gene [1,2]
In this study we investigate the extent to which circulating sclerostin, skeletal sclerostin expression, bone histomorphometric parameters, and serum markers of bone metabolism associate with each other
Results indicate that after dividing the cohort into two groups according to the percentage of sclerostin-positive lacunae patients with a higher percentage of sclerostin-positive osteocytic lacunae had a significantly lower osteoid area, osteoid perimeter, osteoid width and serum level of Bone-specific alkaline phosphatase (BsAP), all markers related to bone formation
Summary
Sclerostin is a secreted glycoprotein that is encoded by the SOST gene [1,2] It is mainly expressed by the osteocytes, other cell types such as chondrocytes have been shown to produce sclerostin [3]. Mounting evidence indicates that circulating sclerostin may qualify as a biomarker of chronic kidney disease mineral and bone disorder (CKD-MBD) [6]. This biomarker research is greatly hampered by analytical variability. A crucial question remains as to what extent circulating sclerostin levels reflect skeletal sclerostin expression. We investigated correlations of skeletal and circulating sclerostin with bone histomorphometric parameters and serum biomarkers of bone formation and turnover
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