人体矿皮质激素受体活性的体外三重筛选模型

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Haiping Liu , Sonja Konzen , Asha Coy , Juilee Rege , Celso E. Gomez-Sanchez , William E. Rainey , Adina F. Turcu
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引用次数: 0

摘要

矿质皮质激素受体(MR,NR3C2)在远端肾小球和其他组织的上皮细胞中介导离子和水的平衡。醛固酮是典型的矿物质皮质激素,可调节电解质和体液平衡。皮质醇与 MR 的结合亲和力与醛固酮相同,但许多表达 MR 的组织会通过 11β- 羟基类固醇脱氢酶 2 型(HSD11B2)将皮质醇灭活为可的松。MR活化失调会对心血管组织造成直接损伤。除醛固酮和皮质醇外,多种 MR 激动剂和/或 HSD11B2 抑制剂都可能参与低肾素高血压(LRH)、心血管和代谢病理学的病理生理过程。我们开发了一种体外人类 MR(hMR)模型,以便于筛选 MR 激动剂、拮抗剂和 HSD11B2 抑制剂。用慢病毒转导 CV1 猴肾细胞,使其稳定表达 hMR 和 MR 响应的高斯荧光素酶基因。MR表达细胞的克隆群(CV1-MRluc)进一步转导表达HSD11B2(CV1-MRluc-HSD11B2)。用醛固酮、皮质醇、11-脱氧皮质酮(DOC)、18-羟皮质酮(18OHB)、18-羟皮质醇(18OHF)、18-氧皮质醇(18oxoF)、孕酮或 17-羟孕酮(17OHP)处理 CV1-MRluc 和 CV1-MRluc-HSD11B2 细胞。在 CV1-MRLuc 细胞中,醛固酮和 DOC 对 hMR 显示出相似的效力(EC50:0.45 nM 和 0.30 nM)和最大反应(分别比基线增加 31 倍和 23 倍);18oxoF 和 18OHB 显示出较低的效力(分别为 19.6 nM 和 56.0 nM),但对 hMR 的最大激活作用相似(分别增加 25 倍和 27 倍);皮质醇和皮质酮显示出更高的最大反应(分别为 73 倍和 52 倍);18OHF 没有显示出 MR 激活作用。孕酮和 17OHP 可抑制醛固酮介导的 MR 激活。在 MRluc-HSD11B2 模型中,皮质醇激活 MR 的 EC50 从 20 nM(CV1-MRLuc)增加到 2000 nM,而醛固酮的 EC50 保持不变。在 CV1-hMRLuc-HSD11B2 细胞中,加入 HSD11B2 抑制剂 18β-甘草次酸(18β-GA)可使皮质醇的效力恢复到 70 nM。这两种细胞模型将共同促进新型 MR 调节剂的发现,为 MR 介导的病理生理学机制和药物开发工作提供信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An in Vitro triple screen model for human mineralocorticoid receptor activity

The mineralocorticoid receptor (MR, NR3C2) mediates ion and water homeostasis in epithelial cells of the distal nephron and other tissues. Aldosterone, the prototypical mineralocorticoid, regulates electrolyte and fluid balance. Cortisol binds to MR with equal affinity to aldosterone, but many MR-expressing tissues inactivate cortisol to cortisone via 11β-hydroxysteroid dehydrogenase type 2 (HSD11B2). Dysregulated MR activation contributes to direct cardiovascular tissue insults. Besides aldosterone and cortisol, a variety of MR agonists and/or HSD11B2 inhibitors are putative players in the pathophysiology of low-renin hypertension (LRH), and cardiovascular and metabolic pathology. We developed an in vitro human MR (hMR) model, to facilitate screening for MR agonists, antagonists, and HSD11B2 inhibitors. The CV1 monkey kidney cells were transduced with lentivirus to stably express hMR and an MR-responsive gaussia luciferase gene. Clonal populations of MR-expressing cells (CV1-MRluc) were further transduced to express HSD11B2 (CV1-MRluc-HSD11B2). CV1-MRluc and CV1-MRluc-HSD11B2 cells were treated with aldosterone, cortisol, 11-deoxycorticosterone (DOC), 18-hydroxycorticosterone (18OHB), 18-hydroxycortisol (18OHF), 18-oxocortisol (18oxoF), progesterone, or 17-hydroxyprogesterone (17OHP). In CV1-MRLuc cells, aldosterone and DOC displayed similar potency (EC50: 0.45 nM and 0.30 nM) and maximal response (31- and 23-fold increase from baseline) on hMR; 18oxoF and 18OHB displayed lower potency (19.6 nM and 56.0 nM, respectively) but similar maximal hMR activation (25- and 27-fold increase, respectively); cortisol and corticosterone exhibited higher maximal responses (73- and 52-fold, respectively); 18OHF showed no MR activation. Progesterone and 17OHP inhibited aldosterone-mediated MR activation. In the MRluc-HSD11B2 model, the EC50 of cortisol for MR activation increased from 20 nM (CV1-MRLuc) to ∼2000 nM, while the EC50 for aldosterone remained unchanged. The addition of 18β-glycyrrhetinic acid (18β-GA), a HSD11B2 inhibitor, restored the potency of cortisol back to ∼70 nM in CV1-hMRLuc-HSD11B2 cells. Together, these two cell models will facilitate the discovery of novel MR-modulators, informing MR-mediated pathophysiology mechanisms and drug development efforts.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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