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RNA优先方法在X连锁低磷血症性佝偻病中鉴定出深度内含子PHEX变体。

RNA-first Approach Identifies Deep Intronic PHEX Variants in X-linked Hypophosphatemic Rickets.

作者信息

Ludwig Karissa, Wu Zenghui, Bardai Ghalib, Miranda Valancy, Alos Nathalie, Ward Leanne M, Rauch Frank

机构信息

Shriners Hospital for Children-Canada, Montreal, QC H4A 0A9, Canada.

Department of Pediatrics, Hôpital Sainte-Justine, Montreal, QC H3T 1C5, Canada.

出版信息

J Clin Endocrinol Metab. 2025 Jul 15;110(8):2288-2298. doi: 10.1210/clinem/dgae785.

DOI:10.1210/clinem/dgae785
PMID:39512182
Abstract

CONTEXT

Up to 20% of patients with X-linked hypophosphatemic rickets (XLH) have no causative variant identified on routine molecular diagnostic testing.

OBJECTIVE

To identify intronic variants causing PHEX mis-splicing in patients with XLH.

SETTING

The metabolic bone clinic of a pediatric orthopedic hospital.

PARTICIPANTS

Four patients (age 6 to 12 years; 3 girls) with clinically diagnosed XLH and no PHEX variant on routine testing.

MAIN OUTCOME MEASURES

RNA and DNA sequence analysis of PHEX.

METHODS

Urine-derived cells were cultured, and mRNA was extracted and transcribed to cDNA. PHEX cDNA was amplified by PCR, followed by sequencing of PCR products. Sequencing of PHEX intronic DNA regions was performed to identify variants causing mis-splicing observed on RNA analysis.

RESULTS

PHEX mis-splicing was identified in 3 of the 4 participants, and an intronic variant was identified in all 3 cases. In a 12-year-old boy, transcript analysis showed skipping of PHEX exon 13, while sequencing of PHEX intronic regions revealed a de novo 18 bp deletion in intron 13. In a 7-year-old girl, a pseudoexon in PHEX intron 17 was found, associated with a de novo deep intronic variant (c.1768 + 173A > G) that activated a cryptic splice donor site. Finally, an 84 bp pseudoexon in PHEX intron 21 caused by a recurrent de novo deep intronic variant (c.2147 + 1197A > G) was identified in an 11-year-old girl.

CONCLUSION

Analysis of RNA from urine-derived cells combined with sequencing of PHEX introns can identify deep intronic variants in individuals with XLH without a detectable PHEX variant in routine exon-centric molecular diagnosis.

摘要

背景

高达20%的X连锁低磷性佝偻病(XLH)患者在常规分子诊断检测中未发现致病变异。

目的

鉴定导致XLH患者PHEX剪接错误的内含子变异。

地点

一家儿科骨科医院的代谢骨病诊所。

参与者

4例临床诊断为XLH且常规检测无PHEX变异的患者(年龄6至12岁;3名女孩)。

主要观察指标

PHEX的RNA和DNA序列分析。

方法

培养尿液来源的细胞,提取mRNA并转录为cDNA。通过PCR扩增PHEX cDNA,随后对PCR产物进行测序。对PHEX内含子DNA区域进行测序,以鉴定导致RNA分析中观察到的剪接错误的变异。

结果

4名参与者中有3名被鉴定为PHEX剪接错误,所有3例均鉴定出一个内含子变异。在一名12岁男孩中,转录本分析显示PHEX外显子13跳跃,而PHEX内含子区域测序显示内含子13有一个新生的18bp缺失。在一名7岁女孩中,发现PHEX内含子17中有一个假外显子,与一个激活隐蔽剪接供体位点的新生深度内含子变异(c.1768 + 173A > G)相关。最后,在一名11岁女孩中鉴定出由一个反复出现的新生深度内含子变异(c.2147 + 1197A > G)导致的PHEX内含子21中的一个84bp假外显子。

结论

对尿液来源细胞的RNA进行分析并结合PHEX内含子测序,可以在常规以外显子为中心的分子诊断中未检测到PHEX变异的XLH个体中鉴定出深度内含子变异。

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