醛固酮调节皮质集合管中的微小核糖核酸以改变钠转运。

Aldosterone regulates microRNAs in the cortical collecting duct to alter sodium transport.

作者信息

Edinger Robert S, Coronnello Claudia, Bodnar Andrew J, Labarca Mariana, Bhalla Vivek, LaFramboise William A, Benos Panayiotis V, Ho Jacqueline, Johnson John P, Butterworth Michael B

机构信息

Renal-Electrolyte Division.

Computational and Systems Biology.

出版信息

J Am Soc Nephrol. 2014 Nov;25(11):2445-57. doi: 10.1681/ASN.2013090931. Epub 2014 Apr 17.

DOI:10.1681/ASN.2013090931

PMID:24744440

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4214524/

Abstract

A role for microRNAs (miRs) in the physiologic regulation of sodium transport in the kidney has not been established. In this study, we investigated the potential of aldosterone to alter miR expression in mouse cortical collecting duct (mCCD) epithelial cells. Microarray studies demonstrated the regulation of miR expression by aldosterone in both cultured mCCD and isolated primary distal nephron principal cells. Aldosterone regulation of the most significantly downregulated miRs, mmu-miR-335-3p, mmu-miR-290-5p, and mmu-miR-1983 was confirmed by quantitative RT-PCR. Reducing the expression of these miRs separately or in combination increased epithelial sodium channel (ENaC)-mediated sodium transport in mCCD cells, without mineralocorticoid supplementation. Artificially increasing the expression of these miRs by transfection with plasmid precursors or miR mimic constructs blunted aldosterone stimulation of ENaC transport. Using a newly developed computational approach, termed ComiR, we predicted potential gene targets for the aldosterone-regulated miRs and confirmed ankyrin 3 (Ank3) as a novel aldosterone and miR-regulated protein. A dual-luciferase assay demonstrated direct binding of the miRs with the Ank3-3' untranslated region. Overexpression of Ank3 increased and depletion of Ank3 decreased ENaC-mediated sodium transport in mCCD cells. These findings implicate miRs as intermediaries in aldosterone signaling in principal cells of the distal kidney nephron.

摘要

微小RNA（miR）在肾脏钠转运的生理调节中的作用尚未明确。在本研究中，我们探究了醛固酮改变小鼠皮质集合管（mCCD）上皮细胞中miR表达的可能性。微阵列研究表明，醛固酮可调节培养的mCCD细胞和分离的原代远端肾单位主细胞中的miR表达。通过定量RT-PCR证实了醛固酮对下调最显著的miR，即mmu-miR-335-3p、mmu-miR-290-5p和mmu-miR-1983的调节作用。单独或联合降低这些miR的表达可增加mCCD细胞中上皮钠通道（ENaC）介导的钠转运，且无需补充盐皮质激素。通过用质粒前体或miR模拟构建体转染来人工增加这些miR的表达，可减弱醛固酮对ENaC转运的刺激作用。使用一种新开发的称为ComiR的计算方法，我们预测了醛固酮调节的miR的潜在基因靶点，并证实锚蛋白3（Ank3）是一种新的受醛固酮和miR调节的蛋白。双荧光素酶测定表明miR与Ank3的3'非翻译区直接结合。Ank3的过表达增加了mCCD细胞中ENaC介导的钠转运，而Ank3的缺失则降低了该转运。这些发现表明miR是远端肾单位主细胞醛固酮信号传导的中介物。

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