Dole Neha S, Kapinas Kristina, Kessler Catherine B, Yee Siu-Pok, Adams Douglas J, Pereira Renata C, Delany Anne M
Center for Molecular Medicine, University of Connecticut Health Center, Farmington, CT, USA.
J Bone Miner Res. 2015 Apr;30(4):723-32. doi: 10.1002/jbmr.2378.
Osteonectin/SPARC is one of the most abundant noncollagenous extracellular matrix proteins in bone, regulating collagen fiber assembly and promoting osteoblast differentiation. Osteonectin-null and haploinsufficient mice have low-turnover osteopenia, indicating that osteonectin contributes to normal bone formation. In male idiopathic osteoporosis patients, osteonectin 3' untranslated region (UTR) single-nucleotide polymorphism (SNP) haplotypes that differed only at SNP1599 (rs1054204) were previously associated with bone mass. Haplotype A (containing SNP1599G) was more frequent in severely affected patients, whereas haplotype B (containing SNP1599C) was more frequent in less affected patients and healthy controls. We hypothesized that SNP1599 contributes to variability in bone mass by modulating osteonectin levels. Osteonectin 3' UTR reporter constructs demonstrated that haplotype A has a repressive effect on gene expression compared with B. We found that SNP1599G contributed to an miR-433 binding site, and miR-433 inhibitor relieved repression of the haplotype A, but not B, 3' UTR reporter construct. We tested our hypothesis in vivo, using a knock-in approach to replace the mouse osteonectin 3' UTR with human haplotype A or B 3' UTR. Compared with haplotype A mice, bone osteonectin levels were higher in haplotype B mice. B mice displayed higher bone formation rate and gained more trabecular bone with age. When parathyroid hormone was administered intermittently, haplotype B mice gained more cortical bone area than A mice. Cultured marrow stromal cells from B mice deposited more mineralized matrix and had higher osteocalcin mRNA compared with A mice, demonstrating a cell-autonomous effect on differentiation. Altogether, SNP1599 differentially regulates osteonectin expression and contributes to variability in bone mass, by a mechanism that may involve differential targeting by miR-433. This work validates the findings of the previous candidate gene study, and it assigns a physiological function to a common osteonectin allele, providing support for its role in the complex trait of skeletal phenotype. © 2014 American Society for Bone and Mineral Research.
骨连接蛋白/富含半胱氨酸的酸性分泌蛋白(Osteonectin/SPARC)是骨骼中含量最丰富的非胶原蛋白细胞外基质蛋白之一,可调节胶原纤维组装并促进成骨细胞分化。骨连接蛋白基因敲除和单倍体不足的小鼠患有低转换型骨质减少症,这表明骨连接蛋白有助于正常的骨形成。在男性特发性骨质疏松症患者中,仅在单核苷酸多态性(SNP)1599(rs1054204)处存在差异的骨连接蛋白3'非翻译区(UTR)单倍型与骨量相关。单倍型A(包含SNP1599G)在病情严重的患者中更为常见,而单倍型B(包含SNP1599C)在病情较轻的患者和健康对照中更为常见。我们推测SNP1599通过调节骨连接蛋白水平导致骨量变异。骨连接蛋白3'UTR报告基因构建体表明,与单倍型B相比,单倍型A对基因表达具有抑制作用。我们发现SNP1599G促成了一个miR-433结合位点,并且miR-433抑制剂可缓解单倍型A而非单倍型B的3'UTR报告基因构建体的抑制作用。我们采用敲入方法,用人类单倍型A或B的3'UTR替换小鼠骨连接蛋白3'UTR,在体内验证了我们的假设。与单倍型A小鼠相比,单倍型B小鼠的骨骨连接蛋白水平更高。单倍型B小鼠显示出更高的骨形成率,并且随着年龄增长获得更多的小梁骨。间歇性给予甲状旁腺激素时,单倍型B小鼠比单倍型A小鼠获得更多的皮质骨面积。与单倍型A小鼠相比,来自单倍型B小鼠的培养骨髓基质细胞沉积更多的矿化基质,并且骨钙素mRNA水平更高,这表明对分化具有细胞自主效应。总之,SNP1599通过一种可能涉及miR-433差异靶向的机制,差异调节骨连接蛋白表达并导致骨量变异。这项工作验证了先前候选基因研究的结果,并赋予常见骨连接蛋白等位基因一种生理功能,为其在骨骼表型复杂性状中的作用提供了支持。©2014美国骨与矿物质研究学会。