Monique A.E. Schoeman scite author profile

Both bone morphogenetic protein (BMP) and Wnt signaling have significant roles in osteoblast differentiation and the interaction between BMP and Wnt signaling is well known. Sclerostin is an important inhibitor of bone formation, inhibiting Wnt signaling and downstream effects of BMP such as alkaline phosphatase activity and matrix mineralization in vitro. However, little is known about the effect of BMP and Wnt signaling interaction on the regulation of SOST, the gene encoding sclerostin. Possibly, uncoupling of osteoblast differentiation regulators and SOST expression could increase osteoblast differentiation. Therefore, we investigated the effect of BMP and Wnt signaling interaction on the expression of SOST and the subsequent effect on osteoblast differentiation. Human osteosarcoma cells (SaOS-2) and murine pre-osteoblast cells (KS483) were treated with different concentrations of Wnt3a, a specific GSK3β inhibitor (GIN) and BMP4. Both Wnt3a and GIN increased BMP4-induced BMP signaling and BMP4 increased Wnt3a and GIN-induced Wnt signaling. However, the effect of GIN was much stronger. Quantitative RT-PCR analysis showed that SOST expression dose-dependently decreased with increasing Wnt signaling, while BMP4 induced SOST expression. GIN significantly decreased the BMP4-induced SOST expression. This resulted in an increased osteoblast differentiation as measured by ALP activity in the medium and matrix mineralization. We conclude that GSK3β inhibition by GIN caused an uncoupling of BMP signaling and SOST expression, resulting in an increased BMP4-induced osteoblast differentiation. This effect can possibly be used in clinical practice to induce local bone formation, for example, fracture healing or osseointegration of implants.

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Validation of a simple and fast method to quantify in vitro mineralization with fluorescent probes used in molecular imaging of bone

Moester

Schoeman

Oudshoorn

et al. 2014

Biochemical and Biophysical Research Communications

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Structural and mechanical characterisation of the peri-prosthetic tissue surrounding loosened hip prostheses. An explorative study

Moerman

Zadpoor

Oostlander

et al. 2016

Journal of the Mechanical Behavior of Biomedical Materials

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Innate immune response and implant loosening: Interferon gamma is inversely associated with early migration of total knee prostheses

Schoeman

Pijls

Oostlander

et al. 2015

Journal Orthopaedic Research

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To allow prediction of the risk of loosening prior to surgery, we investigated the relationship between innate immune cytokine response via TLR2 stimulation and early migration of six different knee prostheses using RSA (radiostereometry). This study included 114 patients of a prospective RSA-cohort who received a total knee arthroplasty. Whole blood cytokine responses were obtained by ex vivo stimulation with tripalmitoyl-S-glycerylcysteine (Pam3Cys-SK4) for assessment of the TLR2 immune response. Early migration was calculated using the maximum total point motion (MTPM) 1 year post surgery. Principal component analysis (PCA) was applied to the cytokine data to reduce the correlated data of individual cytokines and identified two components. Subsequently, linear mixed model analyses were applied with adjustments for gender, age, BMI, time-to-blood sampling, and prosthesis type. Component 1, consisting of IFNg, IL-12p40, IL-10, IL-1b, TNFa, and IL-6, showed a significant inverse association (b ¼ À0.128; p ¼ 0.041) with MTPM. Further analysis showed that IFNg (b ¼ À0.161, p ¼ 0.008) had the highest contribution to this association and is particularly found in patients receiving another prosthesis than Nexgen (b ¼ À0.239; p < 0.001). In conclusion, patients with high levels of IFNg upon stimulation of TLR2 are at lower risk of early migration of their knee prosthesis. ß

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Peri-prosthetic tissue cells show osteogenic capacity to differentiate into the osteoblastic lineage

et al. 2017

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During the process of aseptic loosening of prostheses, particulate wear debris induces a continuous inflammatory‐like response resulting in the formation of a layer of fibrous peri‐prosthetic tissue at the bone‐prosthesis interface. The current treatment for loosening is revision surgery which is associated with a high‐morbidity rate, especially in old patients. Therefore, less invasive alternatives are necessary. One approach could be to re‐establish osseointegration of the prosthesis by inducing osteoblast differentiation in the peri‐prosthetic tissue. Therefore, the aim of this study was to investigate the capacity of peri‐prosthetic tissue cells to differentiate into the osteoblast lineage. Cells isolated from peri‐prosthetic tissue samples (n = 22)−obtained during revision surgeries−were cultured under normal and several osteogenic culture conditions. Osteogenic differentiation was assessed by measurement of Alkaline Phosphatse (ALP), mineralization of the matrix and expression of several osteogenic genes. Cells cultured in osteogenic medium showed a significant increase in ALP staining (p = 0.024), mineralization of the matrix (p < 0.001) and ALP gene expression (p = 0.014) compared to normal culture medium. Addition of bone morphogenetic proteins (BMPs), a specific GSK3β inhibitor (GIN) or a combination of BMP and GIN to osteogenic medium could not increase ALP staining, mineralization, and ALP gene expression. In one donor, addition of GIN was required to induce mineralization of the matrix. Overall, we observed a high‐inter‐donor variability in response to osteogenic stimuli. In conclusion, peri‐prosthetic tissue cells, cultured under osteogenic conditions, can produce alkaline phosphatase and mineralized matrix, and therefore show characteristics of differentiation into the osteoblastic lineage. © 2016 The Authors. Journal of Orthopaedic Research published by Wiley Periodicals, Inc. on behalf of Orthopaedic Research Society. J Orthop Res 35:1732–1742, 2017.

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