鉴定神经发育障碍患者 Xp21.2 和 Xq13.1 处的微重复。

Identification of microduplications at Xp21.2 and Xq13.1 in neurodevelopmental disorders.

机构信息

Northern Finland Laboratory Centre NordLab and Medical Research Centre, Oulu University Hospital and University of Oulu, Oulu, Finland.

Kanta-Häme Central Hospital, Hämeenlinna, Finland.

出版信息

Mol Genet Genomic Med. 2021 Dec;9(12):e1703. doi: 10.1002/mgg3.1703. Epub 2021 May 12.

DOI:10.1002/mgg3.1703

PMID:33982443

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8683627/

Abstract

BACKGROUND

Microduplications are a rare cause of disease in X-linked neurodevelopmental disorders but likely have been under reported due challenges in detection and interpretation.

METHODS

We performed exome sequencing and subsequent microarray analysis in two families with a neurodevelopmental disorder.

RESULTS

Here, we report on two families each with unique inherited microduplications at Xp21.2 and Xq13.1, respectively. In the first family, a 562.8-kb duplication at Xq13.1 covering DLG3, TEX11, SLC7A3, GDPD2, and part KIF4A was identified in a boy whose phenotype was characterized by delayed speech development, mild intellectual disability (ID), mild dysmorphic facial features, a heart defect, and neuropsychiatric symptoms. By interrogating all reported Xq13.1 duplications in individuals affected with a neurodevelopmental disorder, we provide evidence that this genomic region and particularly DLG3 might be sensitive to an increased dosage. In the second family with four affected males, we found a noncontinuous 223- and 204-kb duplication at Xp21.2, of which the first duplication covers exon 6 of IL1RAPL1. The phenotype of the male patients was characterized by delayed speech development, mild to moderate ID, strabismus, and neurobehavioral symptoms. The carrier daughter and her mother had learning difficulties. IL1RAPL1 shows nonrecurrent causal structural variation and is located at a common fragile site (FRAXC), prone to re-arrangement.

CONCLUSION

In conclusion, we show that comprehensive clinical and genetic examination of microduplications on the X-chromosome can be helpful in undiagnosed cases of neurodevelopmental disease.

摘要

背景

微重复是 X 连锁神经发育障碍疾病的一个罕见病因，但由于检测和解释方面的挑战，可能报告的病例较少。

方法

我们对两个具有神经发育障碍的家庭进行了外显子组测序和随后的微阵列分析。

结果

在这里，我们报告了两个家庭，每个家庭都有独特的 Xp21.2 和 Xq13.1 遗传微重复。在第一个家庭中，一个男孩的 Xq13.1 上有一个 562.8kb 的重复，该重复覆盖了 DLG3、TEX11、SLC7A3、GDPD2 和 KIF4A 的一部分，其表型特征为言语发育迟缓、轻度智力障碍 (ID)、轻度面部畸形、心脏缺陷和神经精神症状。通过对所有报道的 Xq13.1 重复在受神经发育障碍影响的个体中的研究，我们提供了证据表明这个基因组区域，特别是 DLG3，可能对增加的剂量敏感。在第二个有四个受影响男性的家庭中，我们发现 Xp21.2 上有一个非连续的 223-和 204-kb 重复，其中第一个重复覆盖了 IL1RAPL1 的外显子 6。男性患者的表型特征为言语发育迟缓、轻度至中度 ID、斜视和神经行为症状。携带者女儿和她的母亲有学习困难。IL1RAPL1 显示非重复的因果结构变异，位于常见脆性位点 (FRAXC)，易发生重排。

结论

总之，我们表明对 X 染色体上的微重复进行全面的临床和遗传检查有助于诊断未确诊的神经发育疾病。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4f40/8683627/7944b374a728/MGG3-9-e1703-g003.jpg

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鉴定神经发育障碍患者 Xp21.2 和 Xq13.1 处的微重复。

Identification of microduplications at Xp21.2 and Xq13.1 in neurodevelopmental disorders.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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