NR3C2 microdeletions-an underrecognized cause of pseudohypoaldosteronism type 1A: a case report and literature review.

Laboratory medicine Pub Date : 2024-09-04 DOI:10.1093/labmed/lmae005

Bobby L Boyanton, Yuri A Zarate, Brannon G Broadfoot, Thomas Kelly, Brendan D Crawford

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Abstract

Objectives: Pseudohypoaldosteronism type 1A (PHA1A) is caused by haploinsufficiency of the mineralocorticoid receptor (MR). Heterozygous small insertions/deletions, transitions, and/or transversions within NR3C2 comprise the majority (85%-90%) of pathogenic copy number variants. Structural chromosomal abnormalities, contiguous gene deletion syndromes, and microdeletions are infrequent. We describe a neonate with PHA1A due to a novel NR3C2 microdeletion involving exons 1-2.

Methods: Literature review identified 39 individuals with PHA1A due to NR3C2 microdeletions. Transmission modality, variant description(s), testing method(s), exon(s) deleted, and affected functional domain(s) were characterized.

Results: In total, 40 individuals with NR3C2 microdeletions were described: 19 involved contiguous exons encoding a single MR domain; 21 involved contiguous exons encoding multiple MR domains. Transmission modality frequency was familial (65%), de novo (20%), or unknown (15%). Sequencing (Sanger or short-read next-generation) failed to detect microdeletions in 100% of tested individuals (n = 38). All were detected using deletion/duplication testing modalities. In 2 individuals, only microarray-based testing was performed; microdeletions were detected in both cases.

Conclusion: Initial testing for PHA1A should rely on sequencing to detect the most common genetic alterations. Deletion/duplication analysis should be performed when initial testing is nondiagnostic. Most NR3C2 microdeletions are parentally transmitted, thus highlighting the importance of familial genetic testing and counseling.

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NR3C2微缺失--假性醛固酮增多症1A型的一个未被充分认识的病因：病例报告和文献综述。

目的：假性醛固酮增多症 1A 型（PHA1A）是由矿质皮质激素受体（MR）单倍体缺陷引起的。在致病拷贝数变异中，大多数（85%-90%）是 NR3C2 中的杂合子小插入/缺失、转换和/或反转。染色体结构异常、连续基因缺失综合征和微缺失并不常见。我们描述了一名因新型 NR3C2 微缺失（涉及 1-2 号外显子）而患有 PHA1A 的新生儿：方法：文献综述确定了 39 例因 NR3C2 微缺失而患有 PHA1A 的患者。对传播方式、变异描述、检测方法、删除的外显子和受影响的功能域进行了特征描述：结果：共描述了 40 例 NR3C2 微缺失患者：其中 19 例涉及编码单个 MR 功能域的连续外显子；21 例涉及编码多个 MR 功能域的连续外显子。传播方式的频率为家族性（65%）、新发现（20%）或未知（15%）。测序（桑格测序或短线程下一代测序）未能在100%的受测个体（n = 38）中检测到微缺失。所有患者都是通过缺失/重复检测方式检测到的。有 2 人仅进行了基于微阵列的检测；在这两个病例中都检测到了微缺失：结论：PHA1A 的初步检测应依靠测序来检测最常见的基因改变。结论：PHA1A 的初步检测应依靠测序来检测最常见的基因改变，如果初步检测无法确诊，则应进行缺失/重复分析。大多数 NR3C2 微缺失是由父母遗传的，因此强调了家族遗传检测和咨询的重要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Laboratory medicine

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