Modulation of Calcium Signaling on Demand to Decipher the Molecular Mechanisms of Primary Aldosteronism.

IF 6.9 1区医学 Q1 PERIPHERAL VASCULAR DISEASE

Hypertension Pub Date : 2025-04-01 Epub Date: 2025-02-12 DOI:10.1161/HYPERTENSIONAHA.124.23295

Bakhta Fedlaoui, Teresa Cosentino, Zeina R Al Sayed, Rita Alexandre Coelho, Isabelle Giscos-Douriez, Nicolo Faedda, May Fayad, Jean-Sebastien Hulot, Christopher J Magnus, Scott M Sternson, Simon Travers-Allard, Stephanie Baron, David Penton, Fabio L Fernandes-Rosa, Maria-Christina Zennaro, Sheerazed Boulkroun

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Abstract

Background: Primary aldosteronism is the most common form of secondary hypertension. The most frequent genetic cause of aldosterone-producing adenomas is somatic mutations in the potassium channel KCNJ5. They affect the ion selectivity of the channel, with sodium influx leading to cell membrane depolarization and activation of calcium signaling, the major trigger for aldosterone biosynthesis.

Methods: To investigate how KCNJ5 mutations lead to the development of aldosterone-producing adenomas, we established an adrenocortical cell model in which sodium entry into the cells can be modulated on demand using chemogenetic tools [H295R-S2 α7-5HT3-R (α7-5HT3 receptor) cells]. We investigated their functional and molecular characteristics with regard to aldosterone biosynthesis and cell proliferation.

Results: A clonal cell line with stable expression of the chimeric α7-5HT3-R in H295R-S2 (human adrenocortical carcinoma cell line, Strain 2) cells was obtained. Increased sodium entry through α7-5HT3-R upon stimulation with uPSEM-817 (uPharmacologically Selective Effector Molecule-817) led to cell membrane depolarization, opening of voltage-gated Ca²⁺ channels, and increased intracellular Ca²⁺ concentrations, resulting in the stimulation of CYP11B2 expression and increased aldosterone biosynthesis. Increased intracellular sodium influx did not increase proliferation but rather induced apoptosis. RNA sequencing and steroidome analyses revealed unique profiles associated with Na⁺ entry, with only partial overlap with Ang II (angiotensin II) or potassium-induced changes.

Conclusions: H295R-S2 α7-5HT3-R cells are a new model reproducing the major features of cells harboring KCNJ5 mutations. Increased expression of CYP11B2 and stimulation of the mineralocorticoid biosynthesis pathway are associated with a decrease of cell proliferation and an increase of apoptosis, indicating that additional events may be required for the development of aldosterone-producing adenomas.

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按需调节钙信号以破译原发性醛固酮增多症的分子机制。

背景：原发性醛固酮增多症是继发性高血压最常见的形式。醛固酮产生性腺瘤最常见的遗传原因是钾通道KCNJ5的体细胞突变。它们影响通道的离子选择性，钠流入导致细胞膜去极化和钙信号的激活，这是醛固酮生物合成的主要触发因素。方法：为了研究KCNJ5突变如何导致醛固酮腺瘤的发生，我们建立了一个肾上腺皮质细胞模型，在这个模型中，钠进入细胞可以通过化学发生工具（H295R-S2 α7-5HT3- r [α7-5HT3受体]细胞）按需调节。我们研究了它们在醛固酮生物合成和细胞增殖方面的功能和分子特性。结果：获得了嵌合α7-5HT3-R在H295R-S2细胞中稳定表达的克隆细胞系。upem -817刺激后，钠通过α7-5HT3-R进入增加，导致细胞膜去极化，打开电压门控Ca2+通道，增加细胞内Ca2+浓度，从而刺激CYP11B2表达，增加醛固酮的生物合成。细胞内钠流入增加不增加细胞增殖，而是诱导细胞凋亡。RNA测序和类固醇分析揭示了与Na+进入相关的独特谱，仅与Ang II（血管紧张素II）或钾诱导的变化部分重叠。结论：H295R-S2 α7-5HT3-R细胞是再现KCNJ5突变细胞主要特征的新模型。CYP11B2表达的增加和矿化皮质激素生物合成途径的刺激与细胞增殖的减少和凋亡的增加有关，这表明醛固酮产生腺瘤的发展可能需要其他事件。

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来源期刊

Hypertension 医学-外周血管病

CiteScore

15.90

自引率

4.80%

发文量

1006

审稿时长

1 months

期刊介绍： Hypertension presents top-tier articles on high blood pressure in each monthly release. These articles delve into basic science, clinical treatment, and prevention of hypertension and associated cardiovascular, metabolic, and renal conditions. Renowned for their lasting significance, these papers contribute to advancing our understanding and management of hypertension-related issues.