HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis

HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis

Abstract Aldosterone and the Mineralocorticoid Receptor (MR) control hydroelectrolytic homeostasis and alterations of mineralocorticoid signaling pathway are involved in the pathogenesis of numerous human diseases, justifying the need to decipher molecular events controlling MR expression level. Her...

Full description

Bibliographic Details
Main Authors: Ingrid Lema, Larbi Amazit, Khadija Lamribet, Jérôme Fagart, Anne Blanchard, Marc Lombès, Nadia Cherradi, Say Viengchareun
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-04838-8
id doaj-3afbcc247e28423e8dc54e661ce07d5f
record_format Article
spelling doaj-3afbcc247e28423e8dc54e661ce07d5f2020-12-08T02:39:38ZengNature Publishing GroupScientific Reports2045-23222017-07-017111310.1038/s41598-017-04838-8HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium HomeostasisIngrid Lema0Larbi Amazit1Khadija Lamribet2Jérôme Fagart3Anne Blanchard4Marc Lombès5Nadia Cherradi6Say Viengchareun7Inserm U1185, Fac Med Paris Sud, Université Paris-SaclayInserm U1185, Fac Med Paris Sud, Université Paris-SaclayInserm U1185, Fac Med Paris Sud, Université Paris-SaclayInserm U1185, Fac Med Paris Sud, Université Paris-SaclayInserm, Centre d’Investigations Cliniques 9201Inserm U1185, Fac Med Paris Sud, Université Paris-SaclayInstitut National de la Santé et de la Recherche MédicaleInserm U1185, Fac Med Paris Sud, Université Paris-SaclayAbstract Aldosterone and the Mineralocorticoid Receptor (MR) control hydroelectrolytic homeostasis and alterations of mineralocorticoid signaling pathway are involved in the pathogenesis of numerous human diseases, justifying the need to decipher molecular events controlling MR expression level. Here, we show in renal cells that the RNA-Binding Protein, Human antigen R (HuR), plays a central role in the editing of MR transcript as revealed by a RNA interference strategy. We identify a novel Δ6 MR splice variant, which lacks the entire exon 6, following a HuR-dependent exon skipping event. Using isoform-specific TaqMan probes, we show that Δ6 MR variant is expressed in all MR-expressing tissues and cells and demonstrate that extracelullar tonicity regulates its renal expression. More importantly, this splice variant exerts dominant-negative effects on transcriptional activity of the full-length MR protein. Collectively, our data highlight a crucial role of HuR as a master posttranscriptional regulator of MR expression in response to osmotic stress. We demonstrate that hypotonicity, not only enhances MR mRNA stability, but also decreases expression of the Δ6 MR variant, thus potentiating renal MR signaling. These findings provide compelling evidence for an autoregulatory feedback loop for the control of sodium homeostasis through posttranscriptional events, likely relevant in renal pathophysiological situations.https://doi.org/10.1038/s41598-017-04838-8
collection DOAJ
language English
format Article
sources DOAJ
author Ingrid Lema
Larbi Amazit
Khadija Lamribet
Jérôme Fagart
Anne Blanchard
Marc Lombès
Nadia Cherradi
Say Viengchareun
spellingShingle Ingrid Lema
Larbi Amazit
Khadija Lamribet
Jérôme Fagart
Anne Blanchard
Marc Lombès
Nadia Cherradi
Say Viengchareun
HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis
Scientific Reports
author_facet Ingrid Lema
Larbi Amazit
Khadija Lamribet
Jérôme Fagart
Anne Blanchard
Marc Lombès
Nadia Cherradi
Say Viengchareun
author_sort Ingrid Lema
title HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis
title_short HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis
title_full HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis
title_fullStr HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis
title_full_unstemmed HuR-Dependent Editing of a New Mineralocorticoid Receptor Splice Variant Reveals an Osmoregulatory Loop for Sodium Homeostasis
title_sort hur-dependent editing of a new mineralocorticoid receptor splice variant reveals an osmoregulatory loop for sodium homeostasis
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract Aldosterone and the Mineralocorticoid Receptor (MR) control hydroelectrolytic homeostasis and alterations of mineralocorticoid signaling pathway are involved in the pathogenesis of numerous human diseases, justifying the need to decipher molecular events controlling MR expression level. Here, we show in renal cells that the RNA-Binding Protein, Human antigen R (HuR), plays a central role in the editing of MR transcript as revealed by a RNA interference strategy. We identify a novel Δ6 MR splice variant, which lacks the entire exon 6, following a HuR-dependent exon skipping event. Using isoform-specific TaqMan probes, we show that Δ6 MR variant is expressed in all MR-expressing tissues and cells and demonstrate that extracelullar tonicity regulates its renal expression. More importantly, this splice variant exerts dominant-negative effects on transcriptional activity of the full-length MR protein. Collectively, our data highlight a crucial role of HuR as a master posttranscriptional regulator of MR expression in response to osmotic stress. We demonstrate that hypotonicity, not only enhances MR mRNA stability, but also decreases expression of the Δ6 MR variant, thus potentiating renal MR signaling. These findings provide compelling evidence for an autoregulatory feedback loop for the control of sodium homeostasis through posttranscriptional events, likely relevant in renal pathophysiological situations.
url https://doi.org/10.1038/s41598-017-04838-8
work_keys_str_mv AT ingridlema hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT larbiamazit hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT khadijalamribet hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT jeromefagart hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT anneblanchard hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT marclombes hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT nadiacherradi hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
AT sayviengchareun hurdependenteditingofanewmineralocorticoidreceptorsplicevariantrevealsanosmoregulatoryloopforsodiumhomeostasis
_version_ 1724393450091053056

Similar Items