代谢和遗传评估在肾结石患儿中的应用。

Metabolic and Genetic Evaluation in Children with Nephrolithiasis.

机构信息

Division of Nephrology, Department of Pediatrics, ICMR Center for Advanced Research in Kidney Diseases, All India Institute of Medical Sciences, New Delhi, 110029, India.

Medgenome Labs, Bommasandra, Bengaluru, Karnataka, India.

出版信息

Indian J Pediatr. 2022 Dec;89(12):1243-1250. doi: 10.1007/s12098-022-04234-9. Epub 2022 Jul 11.

DOI:10.1007/s12098-022-04234-9

PMID:35819704

Abstract

OBJECTIVE

To evaluate metabolic and genetic abnormalities in children with nephrolithiasis attending a referral center in North India.

METHODS

The patients aged 1-18 y old with nephrolithiasis underwent biochemical evaluation and whole-exome sequencing. The authors evaluated for monogenic variants in 56 genes and compared allele frequency of 39 reported polymorphisms between patients and 1739 controls from the GenomeAsia 100 K database.

RESULTS

Fifty-four patients, aged 9.1 ± 3.7 y were included. Stones were bilateral in 42.6%, familial in 33.3%, and recurrent in 25.9%. The most common metabolic abnormalities were hypercalciuria (35.2%), hyperoxaluria (24.1%), or both (11.1%), while xanthinuria (n = 3), cystinuria (n = 1), and hyperuricosuria (n = 1) were rare. Exome sequencing identified an etiology in 6 (11.1%) patients with pathogenic/likely pathogenic causative variants. Three variants in MOCOS and one in ATP7B were pathogenic; likely pathogenic variants included MOCOS (n = 2), AGXT, and SLC7A9 (n = 1, each). Causality was not attributed to two SLC34A1 likely pathogenic variants, due to lack of matching phenotype and dominant family history. Compared to controls, allele frequency of the polymorphism TRPV5 rs4252402 was significantly higher in familial stone disease (allele frequency 0.47 versus 0.53; OR 3.2, p = 0.0001).

CONCLUSION

The chief metabolic abnormalities were hypercalciuria and hyperoxaluria. A monogenic etiology was identified in 11% with pathogenic or likely pathogenic variants using a gene panel for nephrolithiasis. Heterozygous missense variants in the sodium-phosphate cotransporter SLC34A1 were common and required evaluation for attributing pathogenicity. Rare polymorphisms in TRPV5 might increase the risk of familial stones. These findings suggest that a combination of metabolic and genetic evaluation is useful for determining the etiology of nephrolithiasis.

摘要

目的

评估在印度北部一家转诊中心就诊的肾结石患儿的代谢和遗传异常。

方法

对年龄在 1-18 岁的肾结石患儿进行生化评估和全外显子组测序。作者评估了 56 个基因中的单基因突变，并比较了患者和来自 GenomeAsia 100K 数据库的 1739 名对照者之间 39 个已报道的多态性的等位基因频率。

结果

共纳入 54 例患儿，年龄为 9.1±3.7 岁。结石双侧 42.6%，家族性 33.3%，复发性 25.9%。最常见的代谢异常为高钙尿症（35.2%）、高草酸尿症（24.1%）或两者兼有（11.1%），而黄嘌呤尿症（n=3）、胱氨酸尿症（n=1）和高尿酸尿症（n=1）少见。外显子组测序在 6 例（11.1%）患儿中发现了病因，这些患儿存在致病性/可能致病性的致病变异。MOCOS 中的 3 个变异和 ATP7B 中的 1 个变异是致病性的；可能致病性的变异包括 MOCOS（n=2）、AGXT 和 SLC7A9（n=1，各 1 个）。由于缺乏匹配的表型和显性家族史，无法将两个 SLC34A1 可能致病性变异归因于病因。与对照组相比，家族性结石疾病中 TRPV5 rs4252402 多态性的等位基因频率明显较高（等位基因频率 0.47 对 0.53；OR 3.2，p=0.0001）。

结论

主要代谢异常为高钙尿症和高草酸尿症。使用肾结石基因谱，11%的患儿发现了单基因病因，存在致病性或可能致病性变异。SLC34A1 中杂合错义变异很常见，需要评估其致病性。TRPV5 的罕见多态性可能会增加家族性结石的风险。这些发现表明，代谢和遗传评估相结合有助于确定肾结石的病因。

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代谢和遗传评估在肾结石患儿中的应用。

Metabolic and Genetic Evaluation in Children with Nephrolithiasis.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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