Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability

Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability

Summary: Transferrin receptor-1 (TfR1) has essential iron transport and proposed signal transduction functions. Proper TfR1 regulation is a requirement for hematopoiesis, neurological development, and the homeostasis of tissues including the intestine and muscle, while dysregulation is associated wi...

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Bibliographic Details
Main Authors: Victor M. Corral, Eric R. Schultz, Richard S. Eisenstein, Gregory J. Connell
Format: Article
Language:English
Published: Elsevier 2021-04-01
Series:iScience
Subjects:
Biological Sciences
Molecular Biology
Cell Biology
Online Access:http://www.sciencedirect.com/science/article/pii/S258900422100328X
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spelling doaj-741ed1ccd2f9424fa94c8cac961003442021-04-26T05:58:00ZengElsevieriScience2589-00422021-04-01244102360Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stabilityVictor M. Corral0Eric R. Schultz1Richard S. Eisenstein2Gregory J. Connell3Department of Pharmacology, University of Minnesota, Minneapolis, MN 55455, USADepartment of Pharmacology, University of Minnesota, Minneapolis, MN 55455, USADepartment of Nutritional Sciences, University of Wisconsin, Madison, WI 53706, USADepartment of Pharmacology, University of Minnesota, Minneapolis, MN 55455, USA; Corresponding authorSummary: Transferrin receptor-1 (TfR1) has essential iron transport and proposed signal transduction functions. Proper TfR1 regulation is a requirement for hematopoiesis, neurological development, and the homeostasis of tissues including the intestine and muscle, while dysregulation is associated with cancers and immunodeficiency. TfR1 mRNA degradation is highly regulated, but the identity of the degradation activity remains uncertain. Here, we show with gene knockouts and siRNA knockdowns that two Roquin paralogs are major mediators of iron-regulated changes to the steady-state TfR1 mRNA level within four different cell types (HAP1, HUVEC, L-M, and MEF). Roquin is demonstrated to destabilize the TfR1 mRNA, and its activity is fully dependent on three hairpin loops within the TfR1 mRNA 3′-UTR that are essential for iron-regulated instability. We further show in L-M cells that TfR1 mRNA degradation does not require ongoing translation, consistent with Roquin-mediated instability. We conclude that Roquin is a major effector of TfR1 mRNA abundance.http://www.sciencedirect.com/science/article/pii/S258900422100328XBiological SciencesMolecular BiologyCell Biology
collection DOAJ
language English
format Article
sources DOAJ
author Victor M. Corral
Eric R. Schultz
Richard S. Eisenstein
Gregory J. Connell
spellingShingle Victor M. Corral
Eric R. Schultz
Richard S. Eisenstein
Gregory J. Connell
Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability
iScience
Biological Sciences
Molecular Biology
Cell Biology
author_facet Victor M. Corral
Eric R. Schultz
Richard S. Eisenstein
Gregory J. Connell
author_sort Victor M. Corral
title Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability
title_short Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability
title_full Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability
title_fullStr Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability
title_full_unstemmed Roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mRNA stability
title_sort roquin is a major mediator of iron-regulated changes to transferrin receptor-1 mrna stability
publisher Elsevier
series iScience
issn 2589-0042
publishDate 2021-04-01
description Summary: Transferrin receptor-1 (TfR1) has essential iron transport and proposed signal transduction functions. Proper TfR1 regulation is a requirement for hematopoiesis, neurological development, and the homeostasis of tissues including the intestine and muscle, while dysregulation is associated with cancers and immunodeficiency. TfR1 mRNA degradation is highly regulated, but the identity of the degradation activity remains uncertain. Here, we show with gene knockouts and siRNA knockdowns that two Roquin paralogs are major mediators of iron-regulated changes to the steady-state TfR1 mRNA level within four different cell types (HAP1, HUVEC, L-M, and MEF). Roquin is demonstrated to destabilize the TfR1 mRNA, and its activity is fully dependent on three hairpin loops within the TfR1 mRNA 3′-UTR that are essential for iron-regulated instability. We further show in L-M cells that TfR1 mRNA degradation does not require ongoing translation, consistent with Roquin-mediated instability. We conclude that Roquin is a major effector of TfR1 mRNA abundance.
topic Biological Sciences
Molecular Biology
Cell Biology
url http://www.sciencedirect.com/science/article/pii/S258900422100328X
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AT ericrschultz roquinisamajormediatorofironregulatedchangestotransferrinreceptor1mrnastability
AT richardseisenstein roquinisamajormediatorofironregulatedchangestotransferrinreceptor1mrnastability
AT gregoryjconnell roquinisamajormediatorofironregulatedchangestotransferrinreceptor1mrnastability
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