Reassessing the association: Evaluation of a polyalanine deletion variant of RUNX2 in non-syndromic sagittal and metopic craniosynostosis

IF 1.8 3区 医学 Q2 ANATOMY & MORPHOLOGY
Isaac S. Walton, Emma McCann, Astrid Weber, Jenny E. V. Morton, Peter Noons, Louise C. Wilson, Rosanna C. Ching, Deirdre Cilliers, David Johnson, Julie M. Phipps, Deborah J. Shears, Gregory P. L. Thomas, Steven A. Wall, Stephen R. F. Twigg, Andrew O. M. Wilkie
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引用次数: 0

Abstract

The RUNT-related transcription factor RUNX2 plays a critical role in osteoblast differentiation, and alterations to gene dosage cause distinct craniofacial anomalies. Uniquely amongst the RUNT-related family, vertebrate RUNX2 encodes a polyglutamine/polyalanine repeat (Gln23-Glu-Ala17 in humans), with the length of the polyalanine component completely conserved in great apes. Surprisingly, a frequent 6-amino acid deletion polymorphism, p.(Ala84_Ala89)del, occurs in humans (termed 11A allele), and a previous association study (Cuellar et al. Bone 137:115395;2020) reported that the 11A variant was significantly more frequent in non-syndromic sagittal craniosynostosis (nsSag; allele frequency [AF] = 0.156; 95% confidence interval [CI] 0.126–0.189) compared to non-syndromic metopic craniosynostosis (nsMet; AF = 0.068; 95% CI 0.045–0.098). However, the gnomAD v.2.1.1 control population used by Cuellar et al. did not display Hardy–Weinberg equilibrium, hampering interpretation. To re-examine this association, we genotyped the RUNX2 11A polymorphism in 225 individuals with sporadic nsSag as parent–child trios and 164 singletons with sporadic nsMet, restricting our analysis to individuals of European ancestry. We compared observed allele frequencies to the non-transmitted alleles in the parent–child trios, and to the genome sequencing data from gnomAD v.4, which display Hardy–Weinberg equilibrium. Observed AFs (and 95% CI) were 0.076 (0.053–0.104) in nsSag and 0.082 (0.055–0.118) in nsMet, compared with 0.062 (0.042–0.089) in non-transmitted parental alleles and 0.065 (0.063–0.067) in gnomAD v.4.0.0 non-Finnish European control genomes. In summary, we observed a non-significant excess, compared to gnomAD data, of 11A alleles in both nsSag (relative risk 1.18, 95% CI 0.83–1.67) and nsMet (relative risk 1.29, 95% CI 0.87–1.92), but we did not replicate the much higher excess of RUNX2 11A alleles in nsSag previously reported (p = 0.0001).

重新评估关联:评估 RUNX2 多丙氨酸缺失变体在非综合征矢状颅和偏侧颅畸形中的作用。
RUNT 相关转录因子 RUNX2 在成骨细胞分化过程中起着关键作用,基因剂量的改变会导致不同的颅面异常。在 RUNT 相关家族中,脊椎动物 RUNX2 编码一个多谷氨酰胺/多丙氨酸重复序列(人类为 Gln23-Glu-Ala17),其多丙氨酸成分的长度在类人猿中完全保留。令人惊讶的是,在人类中经常出现一种 6 氨基酸缺失多态性 p.(Ala84_Ala89)del(称为 11A 等位基因),之前的一项关联研究(Cuellar et al.之前的关联研究(Cuellar et al. Bone 137:115395;2020)报告称,与非综合畸形偏位颅骨发育不良(nsMet; AF = 0.068; 95% CI 0.045-0.098)相比,11A等位基因在非综合畸形矢状颅颅骨发育不良(nsSag; 等位基因频率 [AF] = 0.156; 95% 置信区间 [CI] 0.126-0.189)中的出现频率明显更高。然而,Cuellar等人使用的gnomAD v.2.1.1对照人群并没有显示出Hardy-Weinberg平衡,从而影响了解释。为了重新研究这种关联,我们对225名散发性nsSag亲子三人组和164名散发性nsMet单人组中的RUNX2 11A多态性进行了基因分型,分析对象仅限于欧洲血统的个体。我们将观察到的等位基因频率与亲子三人组中未传播的等位基因频率以及 gnomAD v.4 中的基因组测序数据进行了比较,后者显示了哈代-温伯格平衡(Hardy-Weinberg equilibrium)。在 nsSag 和 nsMet 中,观察到的等位基因频率(及 95% CI)分别为 0.076(0.053-0.104)和 0.082(0.055-0.118),而在未传播的亲代等位基因中,观察到的等位基因频率为 0.062(0.042-0.089),在 gnomAD v.4.0.0 非芬兰欧洲对照基因组中,观察到的等位基因频率为 0.065(0.063-0.067)。总之,与 gnomAD 数据相比,我们在 nsSag(相对风险为 1.18,95% CI 为 0.83-1.67)和 nsMet(相对风险为 1.29,95% CI 为 0.87-1.92)中都观察到了 11A 等位基因的非显著过量,但我们并没有复制之前报道的 nsSag 中 RUNX2 11A 等位基因的过量(p = 0.0001)。
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来源期刊
Journal of Anatomy
Journal of Anatomy 医学-解剖学与形态学
CiteScore
4.80
自引率
8.30%
发文量
183
审稿时长
4-8 weeks
期刊介绍: Journal of Anatomy is an international peer-reviewed journal sponsored by the Anatomical Society. The journal publishes original papers, invited review articles and book reviews. Its main focus is to understand anatomy through an analysis of structure, function, development and evolution. Priority will be given to studies of that clearly articulate their relevance to the anatomical community. Focal areas include: experimental studies, contributions based on molecular and cell biology and on the application of modern imaging techniques and papers with novel methods or synthetic perspective on an anatomical system. Studies that are essentially descriptive anatomy are appropriate only if they communicate clearly a broader functional or evolutionary significance. You must clearly state the broader implications of your work in the abstract. We particularly welcome submissions in the following areas: Cell biology and tissue architecture Comparative functional morphology Developmental biology Evolutionary developmental biology Evolutionary morphology Functional human anatomy Integrative vertebrate paleontology Methodological innovations in anatomical research Musculoskeletal system Neuroanatomy and neurodegeneration Significant advances in anatomical education.
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