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胶原 1 型α 1 基因(COL1A1)上的一种新生频发错义突变可导致诺曼底牛发生 II 型成骨不全症和早产。

A recurrent de novo missense mutation in COL1A1 causes osteogenesis imperfecta type II and preterm delivery in Normande cattle.

机构信息

BioEpAR, INRAE, Oniris, CS, 40706, Nantes, France.

INRAE, AgroParisTech, GABI, Université Paris Saclay, 78350, Jouy-en-Josas, France.

出版信息

Genet Sel Evol. 2024 May 21;56(1):39. doi: 10.1186/s12711-024-00909-3.

DOI:10.1186/s12711-024-00909-3
PMID:38773368
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11107018/
Abstract

BACKGROUND

Nine male and eight female calves born to a Normande artificial insemination bull named "Ly" were referred to the French National Observatory of Bovine Abnormalities for multiple fractures, shortened gestation, and stillbirth or perinatal mortality.

RESULTS

Using Illumina BovineSNP50 array genotypes from affected calves and 84 half-sib controls, the associated locus was mapped to a 6.5-Mb interval on chromosome 19, assuming autosomal inheritance with germline mosaicism. Subsequent comparison of the whole-genome sequences of one case and 5116 control genomes, followed by genotyping in the affected pedigree, identified a de novo missense substitution within the NC1 domain of the COL1A1 gene (Chr19 g.36,473,965G > A; p.D1412N) as unique candidate variant. Interestingly, the affected residue was completely conserved among 243 vertebrate orthologs, and the same substitution in humans has been reported to cause type II osteogenesis imperfecta (OI), a connective tissue disorder that is characterized primarily by bone deformity and fragility. Moreover, three COL1A1 mutations have been described to cause the same syndrome in cattle. Necropsy, computed tomography, radiology, and histology confirmed the diagnosis of type II OI, further supporting the causality of this variant. In addition, a detailed analysis of gestation length and perinatal mortality in 1387 offspring of Ly and more than 160,000 progeny of 63 control bulls allowed us to statistically confirm in a large pedigree the association between type II OI and preterm delivery, which is probably due to premature rupture of fetal membranes and has been reported in several isolated cases of type II OI in humans and cattle. Finally, analysis of perinatal mortality rates and segregation distortion supported a low level of germ cell mosaicism in Ly, with an estimate of 4.5% to 7.7% of mutant sperm and thus 63 to 107 affected calves born. These numbers contrast with the 17 cases reported and raise concerns about the underreporting of congenital defects to heredo-surveillance platforms, even for textbook genetic syndromes.

CONCLUSIONS

In conclusion, we describe a large animal model for a recurrent substitution in COL1A1 that is responsible for type II OI in humans. More generally, this study highlights the utility of such datasets and large half-sib families available in livestock species to characterize sporadic genetic defects.

摘要

背景

一头名为“Ly”的诺曼底人工授精公牛所生的 9 头公犊和 8 头母犊,因多发性骨折、缩短的妊娠期和死产或围产期死亡而被送到法国国家牛畸形观测站。

结果

使用受影响犊牛和 84 个半同胞对照的 Illumina BovineSNP50 阵列基因型,将相关基因座定位到 19 号染色体上一个 6.5Mb 的区间,假设为常染色体遗传伴生殖系嵌合体。随后,对一个病例和 5116 个对照基因组的全基因组序列进行比较,并在受影响家系中进行基因分型,鉴定出 COL1A1 基因的 NC1 结构域内的一个新生错义取代(Chr19 g.36,473,965G > A;p.D1412N),这是唯一的候选变异。有趣的是,受影响的残基在 243 种脊椎动物同源物中完全保守,人类中相同的取代已被报道导致 II 型成骨不全症(OI),这是一种主要表现为骨骼畸形和脆弱的结缔组织疾病。此外,已有 3 种 COL1A1 突变被描述在牛中引起相同的综合征。尸检、计算机断层扫描、放射学和组织学证实了 II 型 OI 的诊断,进一步支持了该变异的因果关系。此外,对 Ly 的 1387 头后代和 63 头对照公牛的超过 160000 头后代的妊娠长度和围产期死亡率的详细分析,允许我们在一个大型家系中统计证实 II 型 OI 与早产之间的关联,这可能是由于胎膜过早破裂所致,在人类和牛的几个孤立 II 型 OI 病例中已有报道。最后,围产期死亡率和分离扭曲的分析支持 Ly 中生殖细胞嵌合体的低水平,估计有 4.5%至 7.7%的突变精子,因此有 63 至 107 头受影响的犊牛出生。这些数字与报告的 17 例病例形成对比,引起了人们对先天性缺陷向遗传监测平台报告不足的关注,即使是教科书式的遗传综合征也是如此。

结论

总之,我们描述了一个 COL1A1 中重复取代的大型动物模型,该模型负责人类的 II 型 OI。更一般地说,这项研究强调了在牲畜物种中利用此类数据集和大型半同胞家系来描述散发性遗传缺陷的效用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/085b044d10d1/12711_2024_909_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/ddd2aefdb3a4/12711_2024_909_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/88e5b3e8a24e/12711_2024_909_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/a53f779d4efc/12711_2024_909_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/9deb9f52136f/12711_2024_909_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/085b044d10d1/12711_2024_909_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/ddd2aefdb3a4/12711_2024_909_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/88e5b3e8a24e/12711_2024_909_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/a53f779d4efc/12711_2024_909_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/9deb9f52136f/12711_2024_909_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9bc9/11107018/085b044d10d1/12711_2024_909_Fig5_HTML.jpg

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