ZBTB40基因与中国汉族人群和美国高加索人群骨密度的关联研究

最近的全基因组关联研究发现ZBTB40(zinc finger and BTB domain containing 40)基因是一个潜在的调节骨密度的新基因,为了可靠地验证该基因与骨密度的关联关系,采用精细定位关联研究来检测ZBTB40基因内及其附近的SNPs与骨密度的关系.首先在中国样本(1 627个不相关的汉族样本)和美国样本(2 286个不相关高加索样本)中对ZBTB40基因的50个SNPs进行基因分型,然后采用Plink软件检测ZBTB40基因与腰椎和髋部骨密度的关联关系.证实了以前报道的SNPs rs7524102与腰椎和髋部骨密度的关联关系.另外还发现5个SNPs(rs10917209、rs6426748、rs4433361、rs3856183和rs7550872)与腰椎和髋部骨密度相关联.其中最显著的SNP是位于ZBTB40基因上游区域的rs6426748,其与腰椎骨密度的关联P值为9.82×10-4,多重检验校正后仍然显著.连锁不平衡分析表明rs6426748与rs10917209,rs7524102和rs7550872呈现高度连锁关系,位于长度为27 kb的单体型块内,因此ZBTB40基因的功能致病位点可能是rs6426748或该单体型块内某一未分型的SNP.     

全基因组关联分析显示SOX6为影响腕部骨密度的候选基因

骨质疏松症是一种高度遗传且极易导致骨折的骨骼疾病, 它严重损害患者的生活质量. 因骨质疏松而导致的手腕骨折, 很大程度是由于手腕部位的骨量低. 本研究在1000个不相关的白人中采用Affymetix 500K芯片扫描了500000个SNPs, 运用全基因组关联分析(GWAS), 发现SOX6为影响手腕骨密度的一个新的基因, SOX6基因中rs11023787与手腕部骨密度关联, P值为9.00×10^-5. SOX6基因中, rs11023787 C等位基因携带者的手腕骨密度显著高于T等位基因携带者(C等位基因 vs. T等位基因携带者: 0.485 g/cm² vs. 0.462 g/cm²). 为进一步验证该结果, 在中国人群中检测了SOX6基因与骨密度的关联并发现, rs11023787与手腕骨密度显著关联(P=6.41×10^-3). 对GWAS与验证结果进行荟萃分析, 得到联合P值为5.20×10^-6, SOX6基因参与软骨形成过程. 本结果提示, SOX6基因是影响骨密度变异的重要基因.     

钙敏感受体基因、白介素6基因与中国人群骨密度相关联

钙敏感受体是钙新陈代谢的一个重要因素,白介素6是参与破骨细胞分化及功能的一种多效细胞因子。因此,钙敏感受体基因和白介素6基因都为骨矿物质代谢的重要候选基因。本研究旨在利用数量性状传递不平衡检测法,检测白介素6基因和钙敏感受体基因与腰椎和髋部骨密度的关联和连锁,以证实它们是否为影响中国人群骨密度的重要候选基因。本研究的样本为来自中国上海的401个中国核心家庭,共1,263个个体,均为汉族。每个核心家庭由父母双亲和至少一个20～45岁的健康绝经前女儿组成。腰椎与髋部的骨密度采用Hologic QDR 2000＋双能X射线扫描仪进行了检测。用PE377测序仪及相关软件分别对白介素6和钙敏感受体基因中的一个CA重复多态微卫星位点进行了基因分型。分析结果表明钙敏感受体基因（CA）12等位基因（P=0．006）及（Ca）18等位基因（P=0．02）与股骨颈骨密度之间存在显著的整体关联。白介素6基因的（CA）18等位基因与整个髋部（P=0．021）、股骨颈（P=0．041）以及转子间区（P=0．029）骨密度之间均存在显著的家庭内关联。白介素6基因（CA）n位点与腰椎BMD之间存在显著的连锁（P=0．001）。本研究结果表明白介素6基因和钙敏感受体基因可能为与中国人群骨密度变异相关联的候选基因。     

骨质疏松症易感基因BDNF的遗传学关联分析及功能研究

为探索脑源性神经营养因子BDNF基因与中国汉族人群骨密度(bone mineral density,BMD)的关系,解析该基因调节骨质疏松症的功能机制,进而为中国汉族人群的骨质疏松症的防治提供依据。本研究从我国陕西地区征集了1300例汉族样本,并测量髋部/脊椎骨密度。选取BDNF基因上的14个标签SNPs进行基因分型,与1300例样本BMD进行关联分析,发现8个SNPs与髋部/脊椎BMD显著关联(P0.05)。其中,SNP rs16917237同时与髋部和脊椎骨密度关联,经Bonferroni校正后仍表现出显著性(0.05/14=0.0036)。整合连锁不平衡和单体型分析、表观功能注释、表达数量基因座分析、代谢通路分析进一步探索BDNF基因调节骨质疏松症的机制。构建小鼠前成骨细胞系(MC3T3-E1)人骨形态形成蛋白(rh BMP-2)诱导分化模型,利用小干扰RNA(si RNA)敲除BDNF。结果显示:14个SNPs位于同一单体型内;rs16917237在成骨细胞中表现出较强的激活型组蛋白H3K4me1、H3K4me3、H3K27ac修饰信号以及P300结合信号,表明其在成骨细胞中可能具有调控活性;rs16917237在11个组织中均能显著影响BDNF基因表达;BDNF基因位于与成骨细胞增殖分化相关的MAPK通路中;BDNF敲低能够显著降低MAPK通路中与成骨分化相关的CREB基因m RNA和蛋白表达水平,提示其可能通过调控CREB表达进而影响成骨分化。生物信息学分析和功能实验结果一致,表明BDNF基因可能是影响骨质疏松症的重要功能基因。     

α2-HS 糖蛋白基因与中国人群的髋部骨大小的相关性研究

骨大小是一种独立于骨密度（BMD）的骨质疏松性骨折的重要风险因子。由于其高遗传率,充分了解控制骨大小的遗传因素有很重要的临床意义。文章研究目的为检测中国人群中α2-HS糖蛋白基因（AHSG）多态性和腰椎及髋部骨大小变异之间的关联。我们总共征集了来自中国401个核心家庭（包括父母亲及至少一个女儿）的1260个研究样本,并且分型了AHSG基因第7个外显子的Sac Ⅰ位点多态性。该位点核苷酸的替换（C→G）引起第238号丝氨酸被苏氨酸取代,因此可能对基因功能有影响。在任何骨骼位点,没有发现显著的群体分层。发现-HSG基因SacⅠ位点多态性和转子间（P=0．019）以及全髋的（P=0．035）骨大小呈显著性相关。该多态性位点能分别解释转子间和全髋3．74％和3．16％的骨大小变异。连锁分析没有检测到显著性结果,可能的主要原因是样本中同胞对的数目较少,统计效力较低,以及SacⅠ位点多态相对于微卫星标记对连锁分析提供的信息量少。结果表明,月HSG基因多态性可能和中国人群中髋部骨大小变异有关。     

影响中国女性峰值骨密度的潜在基因间相互作用

峰值骨密度是由遗传和环境因素及其相互作用共同决定的复杂性状。维生素D受体基因、雌激素α受体基因、白介素6基因、副甲状腺素基因、Ⅰ型胶原α2基因、骨钙素基因、α2巯基糖蛋白基因是与骨代谢相关的7个重要的候选基因。本研究旨在检测这7个候选基因之间的相互作用对中国女性峰值骨密度的影响。样本为中国上海的361个无关、健康的绝经前女性,均为汉族人,年龄为20—44岁。采用Hologic QDR2000＋双能X射线扫描仪对腰椎与髋部的骨密度进行了检测。采用聚合酶链式反应-限制性片段长度多态分析方法对每个个体的以下8个多态性标记位点进行基因分型：维生素D受体基因的Apa Ⅰ位点,雌激素α受体基因的PvuⅡ和XbaⅠ位点,白介素6基因的BsrB Ⅰ位点,副甲状腺素基因的BstB Ⅰ位点,Ⅰ型胶原α2基因的Msp Ⅰ位点,骨钙素基因的Hind Ⅲ位点,娃巯基糖蛋白基因的SacⅠ位点。采用二元方差分析对基因相互作用与骨密度的关系进行研究。结果表明,白介素基因和雌激素α受体基因（PvuⅡ）的相互作用对髋部（P=0．019）、转子间区（P=0．016）和股骨颈（P=0．019）的骨密度有显著作用。在这3个部位,GGPp基因型携带者比GGpp基因型携带者的骨密度值分别高出18．0％、19．5％和14．8％。另外观察到醒巯基糖蛋白基因与自介素6基因的相互作用对股骨颈骨密度有显著影响（P=0．046）。GGSS基因型携带者的股骨颈骨密度值比GGSs基因型携带者高出18．8％。该项群体水平的统计分析表明：对于中国女性峰值骨密度的遗传决定,白介素基因和雌激素α受体基因、α2巯基糖蛋白基因的相互作用显著。     

胆囊收缩素及受体基因多态性与精神分裂症的相关性研究

目的：探讨胆囊收缩素（cholecystokinin,CCK）基因、胆囊收缩素A受体（cholecystokininAreceptor。CCKAR）基因和胆囊收缩素B受体（cholecystokinin A recepmr,CCKBR）基因多态性与精神分裂症之间的相关性。方法：采用聚合酶链式反应．限制性片段长度多态性方法,对420例精神分裂症患者（病例组）和455例健康个体（对照组）三个基因的6个单核苷酸多态性（single nucleotide polymorphism,SNPs）位点（rs11571842、rs13069836、rs1800908、rs1800857、rs1042047、rs4758092）的多态性进行检测。并比较两组人群中基因型和等位基因频率分布的差异。结果：对照组6个SNPs位点的基因型频率分布均符合Hardy-Weinbere平衡（P〉0．05）;CCKAR基因rs1800857位点基因型频率分布在精神分裂症组与正常对照组间存在显著性差异（P〈0．000）,病例组T等位基因频率显著高于对照组（P〈0．01）。结论：CCKAR基因多态性与精神分裂症相关,携带T等位基因的个体可能更容易患精神分裂症。     

股骨近端三维有限元模型评价髋部骨折患者骨密度

目的：探究骨密度与老年髋部骨折股骨近端三维有限元模型密度的关系。方法：选取8 例老年髋部骨折,其中4 例股骨颈骨 折,4 例股骨转子间骨折;左侧肢体3 例,右侧肢体5 例。分别测定腰椎骨密度和双侧髋关节CT 资料,运用Mimics软件和abaqus 软件对健侧股骨近端进行重建和计算出该模型的密度。结果：股骨转子间骨折组腰椎骨密度为(-4.05± 0.24) g/cm2,三维有限元模 型密度为[(1.15± 0.02)× 106],均低于股骨颈骨折组的(-3.15± 0.54) g/cm2,[(1.34± 0.06)× 106],两组比较差异均有统计学意义（均 P<0.05）。腰椎的骨密度与三维有限元模型密度成线性正相关（r=0.881,P=0.004）。结论：骨密度与老年髋部骨折股骨近端三维有限 元模型密度成线性正相关的关系,可为进一步用有限元分析法探讨老年髋部骨折部位与骨密度的关系提供理论依据。     

Survivin反义寡核苷酸诱导SW620细胞凋亡过程中对caspase-3表达的影响

目的：观察survivin反义寡核苷酸（ASODN）对人结肠癌细胞株SW620增殖、凋亡的影响,并初步探讨其分子机制。方法：靶向survivin基因中与caspase-3结合的部位设计、合成反义寡核苷酸并通过脂质体将其转染至人结肠癌细胞SW620中。噻唑蓝（MTT）法观察survivinASODN对SW620细胞增殖的抑制作用,测定IC50;转染36h后,Hoechst33342染色荧光显微镜下观察检测SW620细胞核变化,RT-PCR检测survivinASODN处理后SW620细胞中caspase-3mRNA表达,分光光度法检测caspase-3酶活性．结果：转染8h后,SW620细胞中可见黄绿色荧光均匀分布：不同浓度survivinASODN处理SW620细胞44h后,SW620细胞增殖显著受到抑制,IC50为1×10^-6M。2×10^-7,4×10^-7,6×10^-7,8×10^-7 and1.2×10^-6M的survivinASODN处理后,细胞生长抑制率分别为15．38±0．022％、2404±0．023％、30．87±0．027％、45．02±0．018％和65．01±0．024％：Hoechest33342染色后荧光显微镜下可观察到染色质凝集并出现凋亡小体,RT-PCR检测到caspase-3mRNA表达上调,另外caspase-3酶活性显著升高。结论靶向survivin基因中与caspase-3结合的部位设计合成的survivinASODN可抑制显著结肠癌SW620增殖、诱导细胞凋亡,其机制与诱导caspase-3表达,提高caspase-3酶活性有关。     

广州地区中老年男性RANK/RANKL/OPG和WNT信号通路基因多态性与髋部骨强度的关联分析

为了探讨RANK/RANKL/OPG和WNT信号通路中6个基因10个单核苷酸多态性位点与中老年男性髋部骨强度的关联,征集788名广州地区40岁以上男性为研究对象,采用Mass Array检测基因型,双能X线吸收仪测定股骨颈骨密度(bone mineral density,BMD)、横截面积(cross-sectional area,CSA)、平均皮质厚度(average cortical thickness,ACT)、剖面模数(section modulus,SM)和抗屈曲率(buckling ratio,BR),以多重线性回归分析各位点与骨表型的关联。结果发现:OPG基因rs3134069的C等位基因与BMD(β=-0.017,P=0.024)和ACT(β=-0.004,P=0.040)负相关;LRP5基因rs3736228的T等位基因与低BMD、CSA、ACT(β=-0.050~-0.003,P0.050)和高BR(β=0.242,P=0.043)相关,rs491347的G等位基因与低BMD相关(β=-0.012,P=0.046)。研究结果支持了OPG和LRP5基因与中国中老年男性人群髋部骨强度相关。     

WNT16 influences bone mineral density, cortical bone thickness, bone strength, and osteoporotic fracture risk

We aimed to identify genetic variants associated with cortical bone thickness (CBT) and bone mineral density (BMD) by performing two separate genome-wide association study (GWAS) meta-analyses for CBT in 3 cohorts comprising 5,878 European subjects and for BMD in 5 cohorts comprising 5,672 individuals. We then assessed selected single-nucleotide polymorphisms (SNPs) for osteoporotic fracture in 2,023 cases and 3,740 controls. Association with CBT and forearm BMD was tested for ～2.5 million SNPs in each cohort separately, and results were meta-analyzed using fixed effect meta-analysis. We identified a missense SNP (Thr>Ile; rs2707466) located in the WNT16 gene (7q31), associated with CBT (effect size of -0.11 standard deviations [SD] per C allele, P = 6.2 × 10(-9)). This SNP, as well as another nonsynonymous SNP rs2908004 (Gly>Arg), also had genome-wide significant association with forearm BMD (-0.14 SD per C allele, P = 2.3 × 10(-12), and -0.16 SD per G allele, P = 1.2 × 10(-15), respectively). Four genome-wide significant SNPs arising from BMD meta-analysis were tested for association with forearm fracture. SNP rs7776725 in FAM3C, a gene adjacent to WNT16, was associated with a genome-wide significant increased risk of forearm fracture (OR = 1.33, P = 7.3 × 10(-9)), with genome-wide suggestive signals from the two missense variants in WNT16 (rs2908004: OR = 1.22, P = 4.9 × 10(-6) and rs2707466: OR = 1.22, P = 7.2 × 10(-6)). We next generated a homozygous mouse with targeted disruption of Wnt16. Female Wnt16(-/-) mice had 27% (P<0.001) thinner cortical bones at the femur midshaft, and bone strength measures were reduced between 43%-61% (6.5 × 10(-13)相似文献   

Identification of a role for the ARHGEF3 gene in postmenopausal osteoporosis

Osteoporosis is a common and debilitating bone disease characterized by low bone mineral density (BMD), a highly heritable and polygenic trait. Genome-wide linkage studies have identified 3p14-p21 as a quantitative trait locus for BMD. The ARHGEF3 gene is situated within this region and was identified as a strong positional candidate. The aim of this study was to evaluate the role of variation in ARHGEF3 on bone density in women. Sequence variation within ARHGEF3 was analyzed with 17 single-nucleotide polymorphisms (SNPs) in a discovery cohort of 769 female sibs. Significant associations were found with family-based association tests between five SNPs and various measures of age-adjusted BMD (p = 0.0007-0.041) with rs7646054 showing maximal association. Analysis of the data with QPDTPHASE suggested that the more common G allele at rs7646054 is associated with decreased age-adjusted BMD. Significant associations were also demonstrated between 3-SNP haplotypes and age-adjusted spine and femoral-neck BMD (p = 0.002 and 0.003, respectively). rs7646054 was then genotyped in a replication cohort, and significant associations with hip and spine BMD were confirmed (p = 0.003-0.038), as well as an association with fracture rate (p = 0.02). Again, the G allele was associated with a decrease in age-adjusted BMD at each site studied. In conclusion, genetic variation in ARHGEF3 plays a role in the determination of bone density in Caucasian women. This data implicates the RhoGTPase-RhoGEF pathway in osteoporosis.     

A genome-wide association analysis implicates SOX6 as a candidate gene for wrist bone mass

Osteoporosis is a highly heritable common bone disease leading to fractures that severely impair the life quality of patients. Wrist fractures caused by osteoporosis are largely due to the scarcity of wrist bone mass. Here we report the results of a genome-wide association study (GWAS) of wrist bone mineral density (BMD). We examined ～500000 SNP markers in 1000 unrelated homogeneous Caucasian subjects and found a novel allelic association with wrist BMD at rs11023787 in the SOX6 (SRY (sex determining region Y)-box 6) gene (P=9.00×10(-5)). Subjects carrying the C allele of rs11023787 in SOX6 had significantly higher mean wrist BMD values than those with the T allele (0.485:0.462 g cm(-2) for C allele vs. T allele carriers). For validation, we performed SOX6 association for BMD in an independent Chinese sample and found that SNP rs11023787 was significantly associated with wrist BMD in the Chinese sample (P=6.41×10(-3)). Meta-analyses of the GWAS scan and the replication studies yielded P-values of 5.20×10(-6) for rs11023787. Results of this study, together with the functional relevance of SOX6 in cartilage formation, support the SOX6 gene as an important gene for BMD variation.     

Meta-analysis of genome-wide scans for total body BMD in children and adults reveals allelic heterogeneity and age-specific effects at the WNT16 locus

To identify genetic loci influencing bone accrual, we performed a genome-wide association scan for total-body bone mineral density (TB-BMD) variation in 2,660 children of different ethnicities. We discovered variants in 7q31.31 associated with BMD measurements, with the lowest P = 4.1 × 10(-11) observed for rs917727 with minor allele frequency of 0.37. We sought replication for all SNPs located ± 500 kb from rs917727 in 11,052 additional individuals from five independent studies including children and adults, together with de novo genotyping of rs3801387 (in perfect linkage disequilibrium (LD) with rs917727) in 1,014 mothers of children from the discovery cohort. The top signal mapping in the surroundings of WNT16 was replicated across studies with a meta-analysis P = 2.6 × 10(-31) and an effect size explaining between 0.6%-1.8% of TB-BMD variance. Conditional analyses on this signal revealed a secondary signal for total body BMD (P = 1.42 × 10(-10)) for rs4609139 and mapping to C7orf58. We also examined the genomic region for association with skull BMD to test if the associations were independent of skeletal loading. We identified two signals influencing skull BMD variation, including rs917727 (P = 1.9 × 10(-16)) and rs7801723 (P = 8.9 × 10(-28)), also mapping to C7orf58 (r(2) = 0.50 with rs4609139). Wnt16 knockout (KO) mice with reduced total body BMD and gene expression profiles in human bone biopsies support a role of C7orf58 and WNT16 on the BMD phenotypes observed at the human population level. In summary, we detected two independent signals influencing total body and skull BMD variation in children and adults, thus demonstrating the presence of allelic heterogeneity at the WNT16 locus. One of the skull BMD signals mapping to C7orf58 is mostly driven by children, suggesting temporal determination on peak bone mass acquisition. Our life-course approach postulates that these genetic effects influencing peak bone mass accrual may impact the risk of osteoporosis later in life.     

Association between low density lipoprotein receptor-related protein 2 gene polymorphisms and bone mineral density variation in Chinese population

Low density lipoprotein receptor-related protein 2 gene (LRP2) is located next to the genomic region showing suggestive linkage with both hip and wrist bone mineral density (BMD) phenotypes. LRP2 knockout mice showed severe vitamin D deficiency and bone disease, indicating the involvement of LRP2 in the preservation of vitamin D metabolites and delivery of the precursor to the kidney for the generation of 1α,25(OH)(2)D(3). In order to investigate the contribution of LRP2 gene polymorphisms to the variation of BMD in Chinese population, a total of 330 Chinese female-offspring nuclear families with 1088 individuals and 400 Chinese male-offspring nuclear families with 1215 individuals were genotyped at six tagSNPs of the LRP2 gene (rs2389557, rs2544381, rs7600336, rs10210408, rs2075252 and rs4667591). BMD values at the lumbar spine 1-4 (L1-4) and hip sites were measured by DXA. The association between LRP2 polymorphisms and BMD phenotypes was assessed by quantitative transmission disequilibrium tests (QTDTs) in female- and male-offspring nuclear families separately. In the female-offspring nuclear families, rs2075252 and haplotype GA of rs4667591 and rs2075252 were identified in the nominally significant total association with peak BMD at L1-4; however, no significant within-family association was found between peak BMD at the L1-4 and hip sites and six tagSNPs or haplotypes. In male-offspring nuclear families, neither the six tagSNPs nor the haplotypes was in total association or within-family association with the peak BMD variation at the L1-4 and hip sites by QTDT analysis. Our findings suggested that the polymorphisms of LRP2 gene is not a major factor that contributes to the peak BMD variation in Chinese population.     

Comprehensive analysis of the association of EGFR,CALM3 and SMARCD1 gene polymorphisms with BMD in Caucasian women

Summary

Three genes, including EGFR (epidermal growth factor receptor), CALM3 (calmodulin 3, calcium-modulated protein 3) and SMARCD1 (SWI/SNF-related matrix-associated actin-dependent regulator of chromatin subfamily d member 1), play different roles in bone and/or fat metabolism in Caucasian women. In this population-based investigation of 870 unrelated postmenopausal Caucasian women, CALM3 polymorphisms were significantly associated with femoral neck bone mineral density (FNK BMD), hip BMD and spine BMD. Age and tobacco status also affected BMD levels and were therefore corrected for in our statistical analysis.

Introduction

EGFR, CALM3 and SMARCD1 play roles in bone and/or fat metabolism. However, the correlations between the polymorphisms of these three genes and body composition levels, including BMD, remain to be determined.

Materials and Methods

A population-based investigation of 870 white women was conducted. Forty-four SNPs (single nucleotide polymorphisms) in EGFR, CALM3 and SMARCD1 were chosen by the software, including those of potential functional importance. The candidate SNPs were genotyped by the KASPar assay for an association analysis with body composition levels. The correlation analysis was assessed by the Pearson''s product-moment correlation coefficient and Spearman rank-order correlation tests, and the family-wise error was corrected using the Wald test implemented in PLINK.

Results

The SNP rs12461917 in the 3′-flanking region of the CALM3 gene was significantly associated with FNK BMD (P = 0.001), hip BMD (P<0.001) and spine BMD (P = 0.001); rs11083838 in the 5′-flanking region of CALM3 gene was associated with spine BMD (P = 0.009). After adjusting for multiple comparisons, rs12461917 remained significant (P-adjusted  = 0.033 for FNK BMD, P-adjusted  = 0.006 for hip BMD and P-adjusted  = 0.018 for spine BMD).

Conclusions

Our data show that polymorphisms of the CALM3 gene in Caucasian women may contribute to variations in the BMD of the hip, spine and femoral neck.     

The fat mass and obesity associated gene, FTO, is also associated with osteoporosis phenotypes

Obesity and osteoporosis are closely correlated genetically. FTO gene has been consistently identified to be associated with obesity phenotypes. A recent study reported that the mice lacking Fto could result in lower bone mineral density (BMD). Thus, we hypothesize that the FTO gene might be also important for osteoporosis phenotypes. To test for such a hypothesis, we performed an association analyses to investigate the relationship between SNPs in FTO and BMD at both hip and spine. A total of 141 SNPs were tested in two independent Chinese populations (818 and 809 unrelated Han subjects, respectively) and a Caucasian population (2,286 unrelated subjects). Combining the two Chinese samples, we identified 6 SNPs in FTO to be significantly associated with hip BMD after multiple testing adjustments, with the combined P values ranged from 4.99×10⁻⁴–1.47×10⁻⁴. These 6 SNPs are all located at the intron 8 of FTO and in high linkage disequilibrium. Each copy of the minor allele of each SNP was associated with increased hip BMD values with the effect size (beta) of ∼0.025 and ∼0.015 in the Chinese sample 1 and 2, respectively. However, none of these 6 SNPs showed significant association signal in the Caucasian sample, by presenting some extent of ethnic difference. Our findings, together with the prior biological evidence, suggest that the FTO gene might be a new candidate for BMD variation and osteoporosis in Chinese populations.     

Association of ESR1 and C6orf97 gene polymorphism with osteoporosis in postmenopausal women

The estrogen receptor 1 (ESR1) and Chromosome 6 Open Reading Frame 97 (C6orf97) gene polymorphisms were earlier reported to be associated with osteoporosis in the European cohort. The aim of this study was to investigate the association of four single nucleotide polymorphisms (SNP) with bone mineral density (BMD), fracture, vertebral fracture, bone turnover or 25-hydroxyvitamin D [25(OH)D] in 1,753 randomly selected postmenopausal women in China. Vertebral fracture, BMD of lumbar spine (2–4), femoral neck and total hip were measured respectively. Serum N-terminal procollagen of type 1 collagen (P1NP), β-isomerized type I collagen C-telopeptide breakdown products (β-CTX) and 25(OH)D3 were also determined. Binary logistic regression revealed significant associations between fracture risk with rs1999805 (P = 0.041, OR 1.633, 95 %CI 1.020–2.616) and rs6929137 (P = 0.005, OR 1.932, 95 %CI 1.226–3.045) in recessive model. Significant association was also observed between vertebral fracture risk and rs1038304 (P = 0.039, OR 0.549, 95 %CI 0.311–0.969) in recessive model. Liner regression analyses showed that only the CC group of rs4870044 was significantly associated with total hip in dominant model (P = 0.034). Our findings suggest that ESR1 and C6orf97 gene polymorphism is associated with fracture and vertebral fracture risk in Chinese postmenopausal women.     

BMD-associated variation at the Osterix locus is correlated with childhood obesity in females

Recent genome wide association studies (GWAS) have revealed a number of genetic variants robustly associated with bone mineral density (BMD) and/or osteoporosis. Evidence from epidemiological and clinical studies has shown an association between BMD and BMI, presumably as a consequence of bone loading. We investigated the 23 previously published BMD GWAS-derived loci in the context of childhood obesity by leveraging our existing genome-wide genotyped European American cohort of 1106 obese children (BMI ≥ 95th percentile) and 5997 controls (BMI < 95th percentile). Evidence of association was only observed at one locus, namely Osterix (SP7), with the G allele of rs2016266 being significantly over-represented among childhood obesity cases (P = 2.85 × 10(-3)). When restricting these analyses to each gender, we observed strong association between rs2016266 and childhood obesity in females (477 cases and 2867 controls; P = 3.56 × 10(-4)), which survived adjustment for all tests applied. However, no evidence of association was observed among males. Interestingly, Osterix is the only GWAS locus uncovered to date that has also been previously implicated in the determination of BMD in childhood. In conclusion, these findings indicate that a well established variant at the Osterix locus associated with increased BMD is also associated with childhood obesity primarily in females.