Functional properties of the γ-ENaC-A635V mutation in a patient with severe hyponatremia.

IF 2.4 4区医学 Q3 ENDOCRINOLOGY & METABOLISM

Hormones-International Journal of Endocrinology and Metabolism Pub Date : 2025-03-28 DOI:10.1007/s42000-025-00637-3

Marita Antoniadi, Marc Bohnet, Stephan Kellenberger, Dimitra-Irinna Vitoratou, Olga Fafoula, Fani Mylona, Stavroula Kostaridou, Danai Palaiologou, Anna Taliou, Constantine A Stratakis

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引用次数: 0

Abstract

Background: Aldosterone plays a critical role in sodium homeostasis by binding to the mineralocorticoid receptor promoting sodium retention. It increases the expression of epithelial sodium channels (ENaC) and sodium-potassium ATPases in the renal distal tubules and collecting ducts. Defects in aldosterone synthesis lead to hyponatremia, hyperkalemia, hyperreninemia, metabolic acidosis, and hypovolemia.

Patient: We present a 7-year-old boy with holoprosencephaly, dysmorphic features, and short stature presenting with persistent hyponatremia since birth and occasional hypokalemia and hyporeninemia. Initial whole exome sequencing (WES) identified a novel in-frame SHH variant, NM_000193.4:c.755_757del (p.Phe252del); possible aldosterone deficiency due to adrenocortical hypoplasia caused by the SHH variant did not fully explain the patient's clinical presentation, prompting further investigation.

Results: Deep analysis of the WES data revealed a second variant of unknown significance in the SCNN1G gene affecting the γ-ENaC subunit, namely NM_001039.4.1904 C > T (p.Ala635Val), which was previously unreported in association with a clinical phenotype. Electrophysiological studies of the amiloride-sensitive current before and after trypsin exposure showed that the γ-ENaC-A635V mutation reduced the amiloride-sensitive sodium current by approximately 30%. The trypsin experiments suggested a lower channel open probability and a reduced inward sodium current through the ENaC.

Conclusions: These findings indicate that the A635 residue participates in channel function, with γ-Α635V leading to decreased sodium reabsorption. This case underscores the importance of reevaluating genetic data to understand complex clinical presentations and identifies a new potential pathogenic variant affecting sodium homeostasis. The case illustrates how genetic variants with contrasting effects on a physiological loop along with functional changes due to development and age may be hard to interpret.

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严重低钠血症患者体内 γ-ENaC-A635V 突变的功能特性。

背景：醛固酮通过与盐皮质激素受体结合促进钠潴留，在钠稳态中起关键作用。它增加上皮钠通道（ENaC）和钠钾atp酶在肾远端小管和集管中的表达。醛固酮合成缺陷导致低钠血症、高钾血症、高肾素血症、代谢性酸中毒和低血容量。患者：我们报告一名7岁男孩，患有前脑畸形，畸形特征，身材矮小，自出生以来持续低钠血症，偶尔低钾血症和低肾素血症。初始全外显子组测序（WES）鉴定出一种新的框架内SHH变异NM_000193.4:c。755年_757del (p.Phe252del);SHH变异引起的肾上腺皮质发育不全可能导致醛固酮缺乏，这并不能完全解释患者的临床表现，需要进一步的研究。结果：对WES数据的深入分析揭示了影响γ-ENaC亚基的SCNN1G基因中第二个未知意义的变异，即NM_001039.4.1904 C > T (p.a ala635val)，这是以前未报道的与临床表型相关的变异。胰蛋白酶暴露前后对阿米洛利钠敏感电流的电生理研究表明，γ-ENaC-A635V突变使阿米洛利钠敏感电流降低了约30%。胰蛋白酶实验表明通道打开概率较低，通过ENaC的内向钠电流减少。结论：这些发现表明A635残基参与通道功能，γ-Α635V导致钠重吸收减少。该病例强调了重新评估遗传数据以了解复杂临床表现的重要性，并确定了影响钠稳态的新的潜在致病变异。该病例说明了遗传变异对生理回路的不同影响以及由于发育和年龄导致的功能变化可能难以解释。

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来源期刊

Hormones-International Journal of Endocrinology and Metabolism ENDOCRINOLOGY & METABOLISM-

CiteScore

5.90

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Hormones-International Journal of Endocrinology and Metabolism is an international journal published quarterly with an international editorial board aiming at providing a forum covering all fields of endocrinology and metabolic disorders such as disruption of glucose homeostasis (diabetes mellitus), impaired homeostasis of plasma lipids (dyslipidemia), the disorder of bone metabolism (osteoporosis), disturbances of endocrine function and reproductive capacity of women and men. Hormones-International Journal of Endocrinology and Metabolism particularly encourages clinical, translational and basic science submissions in the areas of endocrine cancers, nutrition, obesity and metabolic disorders, quality of life of endocrine diseases, epidemiology of endocrine and metabolic disorders.