Enhanced prostacyclin formation and Wnt signaling in sclerostin deficient osteocytes and bone

We show that prostacyclin production is increased in bone and osteocytes from sclerostin (Sost) knockout mice which have greatly increased bone mass. The addition of prostacyclin or a prostacyclin analog to bone forming osteoblasts enhances differentiation and matrix mineralization of osteoblasts. The increase in prostacyclin synthesis is linked to increases in β-catenin concentrations and activity as shown by enhanced binding of lymphoid enhancer factor, Lef1, to promoter elements within the prostacyclin synthase promoter. Blockade of Wnt signaling reduces prostacyclin production in osteocytes. Increased prostacyclin production by osteocytes from sclerostin deficient mice could potentially contribute to the increased bone formation seen in this condition.     

Thiazolidinediones induce osteocyte apoptosis by a G protein-coupled receptor 40-dependent mechanism

Thiazolidinediones (TZDs) represent an interesting treatment of type 2 diabetes mellitus. However, adverse effects such as heart problems and bone fractures have already been reported. Previously, we reported that pioglitazone and rosiglitazone induce osteocyte apoptosis and sclerostin up-regulation; however, the molecular mechanisms leading to such effects are unknown. In this study, we found that TZDs rapidly activated Erk1/2 and p38. These activations were mediated through Ras proteins and GPR40, a receptor expressed on the surface of osteocytes. Activation of this pathway led only to osteocyte apoptosis but not sclerostin up-regulation. On the other hand, TZDs were capable of activating peroxisome proliferator-activated receptor-γ, and activation of this signaling pathway led to sclerostin up-regulation but not osteocyte apoptosis. This study demonstrates two distinct signaling pathways activated in osteocytes in response to TZDs that could participate in the observed increase in fractures in TZD-treated patients.     

Characterization of the Interaction of Sclerostin with the Low Density Lipoprotein Receptor-related Protein (LRP) Family of Wnt Co-receptors

LRP5 and LRP6 are proteins predicted to contain four six-bladed β-propeller domains and both bind the bone-specific Wnt signaling antagonist sclerostin. Here, we report the crystal structure of the amino-terminal region of LRP6 and using NMR show that the ability of sclerostin to bind to this molecule is mediated by the central core of sclerostin and does not involve the amino- and carboxyl-terminal flexible arm regions. We show that this structured core region interacts with LRP5 and LRP6 via an NXI motif (found in the sequence PNAIG) within a flexible loop region (loop 2) within the central core region. This sequence is related closely to a previously identified motif in laminin that mediates its interaction with the β-propeller domain of nidogen. However, the NXI motif is not involved in the interaction of sclerostin with LRP4 (another β-propeller containing protein in the LRP family). A peptide derived from the loop 2 region of sclerostin blocked the interaction of sclerostin with LRP5/6 and also inhibited Wnt1 but not Wnt3A or Wnt9B signaling. This suggests that these Wnts interact with LRP6 in different ways.     

维持性腹膜透析患者血管钙化评估及血清sclerostin、FGF-23测定对血管钙化发生风险的预测价值研究

摘要 目的：评估维持性腹膜透析（PD）患者血管钙化（VC）情况,分析血清骨硬化蛋白（sclerostin）、成纤维生长因子-23（FGF-23）测定对VC发生风险的预测价值。方法：选择2018年5月~2021年6月期间我院收治的维持性PD患者103例为研究对象。收集所有患者的临床资料进行分析,观察VC情况,多因素Logistic回归分析维持性PD患者VC的危险因素。受试者工作特征曲线（ROC）分析血清sclerostin、FGF-23单独及联合测定对VC的预测价值。结果：103例维持性PD患者中有69例（66.99%）存在不同部位、不同程度的VC。根据是否出现VC进行分组,其中VC患者69例（VC组）,未出现VC患者34例（无VC组）。与无VC组患者相比,VC组年龄、合并糖尿病人数占比、血清sclerostin、FGF-23、血钙（Ca）水平明显更高,透析时间明显更长,全段甲状旁腺激素水平明显更低（P<0.05）。透析时间≥32月、年龄≥55岁、合并糖尿病、血清FGF-23≥80 pg/mL、Ca≥1.3 mmol/L、血清sclerostin≥7 ng/mL是维持性PD患者并发VC的危险因素（P＜0.05）。血清sclerostin、FGF-23的曲线下面积（AUC）（0.95CI）分别为0.783（0.691～0.858）、0.793（0.702～0.866）,有一定的预测效能,而两指标联合应用时：AUC（0.95CI）为0.867（0.786～0.926）,预测效能更高。结论：维持性PD患者VC的发生与透析时间、年龄、合并糖尿病、FGF-23、Ca、sclerostin有关,sclerostin、FGF-23联合测定对VC发生风险的预测价值较高,对于此类患者VC的评估具有辅助作用。     

血清锌-α2-糖蛋白、骨硬化蛋白、胎球蛋白A水平与维持性血液透析患者冠状动脉钙化的关系及其诊断价值研究

目的:研究血清锌-α2-糖蛋白(ZAG)、骨硬化蛋白(SOST)及胎球蛋白A(FA)水平与维持性血液透析(MHD)患者冠状动脉钙化的关系及其诊断价值。方法:将2018年1月~2021年4月于我院接受MHD的203例患者纳入研究。将其按照冠状动脉钙化积分分作钙化组133例以及无钙化组70例。分析两组各项基线资料以及实验室指标水平的差异,并以多因素Logistic回归分析明确MHD患者冠状动脉钙化的影响因素。另外,通过受试者工作特征(ROC)曲线分析明确血清ZAG、SOST及FA诊断MHD患者冠状动脉钙化的效能。结果:钙化组年龄及血磷、SOST水平均高于无钙化组,而血清ZAG、FA水平均低于无钙化组(P<0.05)。经多因素Logistic回归分析可得:年龄、血磷以及血清SOST、ZAG、FA均是MHD患者冠状动脉钙化的影响因素(P<0.05)。经ROC曲线分析发现:血清ZAG、SOST及FA联合诊断MHD患者冠状动脉钙化的曲线下面积、灵敏度、特异度以及约登指数均高于上述三项指标单独诊断。结论:血清ZAG、SOST及FA均和MHD患者冠状动脉钙化密切相关,可作为辅助诊断MHD患者冠状动脉钙化的生物学标志物。     

Sclerostin binds and regulates the activity of cysteine-rich protein 61

Sclerostin, a secreted glycoprotein, regulates osteoblast function. Using yeast two-hybrid and direct protein interaction analyses, we demonstrate that sclerostin binds the Wnt-modulating and Wnt-modulated, extracellular matrix protein, cysteine-rich protein 61 (Cyr61, CCN1), which regulates mesenchymal stem cell proliferation and differentiation, osteoblast and osteoclast function, and angiogenesis. Sclerostin was shown to inhibit Cyr61-mediated fibroblast attachment, and Cyr61 together with sclerostin increases vascular endothelial cell migration and increases osteoblast cell division. The data show that sclerostin binds to and influences the activity of Cyr61.     

Distinct Modes of Inhibition by Sclerostin on Bone Morphogenetic Protein and Wnt Signaling Pathways

Sclerostin is expressed by osteocytes and has catabolic effects on bone. It has been shown to antagonize bone morphogenetic protein (BMP) and/or Wnt activity, although at present the underlying mechanisms are unclear. Consistent with previous findings, Sclerostin opposed direct Wnt3a-induced but not direct BMP7-induced responses when both ligand and antagonist were provided exogenously to cells. However, we found that when both proteins are expressed in the same cell, sclerostin can antagonize BMP signaling directly by inhibiting BMP7 secretion. Sclerostin interacts with both the BMP7 mature domain and pro-domain, leading to intracellular retention and proteasomal degradation of BMP7. Analysis of sclerostin knock-out mice revealed an inhibitory action of sclerostin on Wnt signaling in both osteoblasts and osteocytes in cortical and cancellous bones. BMP7 signaling was predominantly inhibited by sclerostin in osteocytes of the calcaneus and the cortical bone of the tibia. Our results suggest that sclerostin exerts its potent bone catabolic effects by antagonizing Wnt signaling in a paracrine and autocrine manner and antagonizing BMP signaling selectively in the osteocytes that synthesize simultaneously both sclerostin and BMP7 proteins.     

An Akt-dependent increase in canonical Wnt signaling and a decrease in sclerostin protein levels are involved in strontium ranelate-induced osteogenic effects in human osteoblasts

Sclerostin is an important regulator of bone homeostasis and canonical Wnt signaling is a key regulator of osteogenesis. Strontium ranelate is a treatment for osteoporosis that has been shown to reduce fracture risk, in part, by increasing bone formation. Here we show that exposure of human osteoblasts in primary culture to strontium increased mineralization and decreased the expression of sclerostin, an osteocyte-specific secreted protein that acts as a negative regulator of bone formation by inhibiting canonical Wnt signaling. Strontium also activated, in an apparently separate process, an Akt-dependent signaling cascade via the calcium-sensing receptor that promoted the nuclear translocation of β-catenin. We propose that two discrete pathways linked to canonical Wnt signaling contribute to strontium-induced osteogenic effects in osteoblasts.     

Genetic evidence that SOST inhibits WNT signaling in the limb

SOST is a negative regulator of bone formation, and mutations in human SOST are responsible for sclerosteosis. In addition to high bone mass, sclerosteosis patients occasionally display hand defects, suggesting that SOST may function embryonically. Here we report that overexpression of SOST leads to loss of posterior structures of the zeugopod and autopod by perturbing anterior-posterior and proximal-distal signaling centers in the developing limb. Mutant mice that overexpress SOST in combination with Grem1 and Lrp6 mutations display more severe limb defects than single mutants alone, while Sost^−/− significantly rescues the Lrp6^−/− skeletal phenotype, signifying that SOST gain-of-function impairs limb patterning by inhibiting the WNT signaling through LRP5/6.