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一名患有低磷性佝偻病男孩的PHEX基因新发镶嵌突变。

A de novo mosaic mutation of PHEX in a boy with hypophosphatemic rickets.

作者信息

Weng Chen, Chen Jiao, Sun Li, Zhou Zhong-Wei, Feng Xue, Sun Jun-Hui, Lu Ling-Ping, Yu Ping, Qi Ming

机构信息

Department of Cell Biology and Medical Genetics, School of Medicine Zhejiang University, Hangzhou, China.

Department of Nephrology and Rheumatology, Children's Hospital of Fudan University, Shanghai, China.

出版信息

J Hum Genet. 2016 Mar;61(3):223-7. doi: 10.1038/jhg.2015.133. Epub 2015 Nov 12.

DOI:10.1038/jhg.2015.133
PMID:26559751
Abstract

X-linked dominant hypophosphatemic rickets (XLHR), is characterized mainly by renal phosphate wasting with hypophosphatemia, short stature and abnormal bone mineralization. PHEX, located at Xp22.1-p22.2, is the gene causing XLHR. We aim to characterize the pathogenesis of a Chinese boy who is apparently 'heterozygous' in PHEX gene. Direct sequencing showed two peaks: one was a wild-type 'G' and the other was one base substitution to 'A', though the patient was a male. TA clone assay clearly showed each sequences and the ratios. The mutation effect was predicted via bioinformatics and validated by exon-trapping assay. Real-time PCR was applied to determine the copy number of PHEX. TA clone assay showed the frequency of normal (G) to mutant allele (A) as 19:13. Normal karyotype and real-time PCR results indicate the normal copy number of PHEX. This splice site mutation leads to 4 bp of exon 18 skipping out causing frame shift p.Gly590Glufs*28 that ends up with a loss of active site and Zn(2+)-binding site of PHEX, which probably interfere with renal phosphate reabsorption and bone mineralization. In conclusion, mutation at conserved splice acceptor site resulted in aberrant splicing, ending up with a damaged protein product. This novel mutation is de novo in mosaic pattern that may be induced during early postzygotic period. Taking mosaic somatic mutation of PHEX into consideration is strongly suggested in genetic counseling and etiology research for XLHR.

摘要

X连锁显性低磷性佝偻病(XLHR)主要特征为肾性磷酸盐流失伴低磷血症、身材矮小和骨矿化异常。位于Xp22.1-p22.2的PHEX基因是导致XLHR的基因。我们旨在明确一名PHEX基因表现为“杂合子”的中国男孩的发病机制。直接测序显示有两个峰:一个是野生型“G”,另一个是一个碱基替换为“A”,尽管该患者为男性。TA克隆分析清楚地显示了每个序列及其比例。通过生物信息学预测突变效应,并通过外显子捕获分析进行验证。应用实时PCR确定PHEX的拷贝数。TA克隆分析显示正常(G)与突变等位基因(A)的频率为19:13。正常核型和实时PCR结果表明PHEX的拷贝数正常。这种剪接位点突变导致外显子18缺失4个碱基,引起移码p.Gly590Glufs*28,最终导致PHEX的活性位点和锌(2+)结合位点丧失,这可能会干扰肾磷酸盐重吸收和骨矿化。总之,保守剪接受体位点的突变导致异常剪接,最终产生受损的蛋白质产物。这种新的突变是以镶嵌模式出现的新生突变,可能在合子后早期诱导产生。在XLHR的遗传咨询和病因学研究中,强烈建议考虑PHEX的镶嵌体细胞突变。

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