A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)

A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)

Ferroportin (Fpn/IREG1/MTP1) is the only known transporter mediating iron efflux from epithelial cells and macrophages, and thus regulates how much iron is released into the circulation. Consequently, Fpn mutations are associated with haemochromatosis. Fpn itself is post-translationally regulated by...

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Bibliographic Details
Main Authors: Henry K. Bayele, Surjit Kaila S. Srai
Format: Article
Language:English
Published: Elsevier 2021-03-01
Series:Biochemistry and Biophysics Reports
Subjects:
Ferroportin
Iron transport
Subcellular distribution
SUMO
Sumoylation
Online Access:http://www.sciencedirect.com/science/article/pii/S2405580820301837
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spelling doaj-9a96e7c5d23d42d6a0b2aba4ecba00d52021-02-11T04:22:07ZengElsevierBiochemistry and Biophysics Reports2405-58082021-03-0125100873A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)Henry K. Bayele0Surjit Kaila S. Srai1Department of Structural & Molecular Biology, University College London, Darwin Building, Gower Street, London, WC1E 6BT, United KingdomCorresponding author.; Department of Structural & Molecular Biology, University College London, Darwin Building, Gower Street, London, WC1E 6BT, United KingdomFerroportin (Fpn/IREG1/MTP1) is the only known transporter mediating iron efflux from epithelial cells and macrophages, and thus regulates how much iron is released into the circulation. Consequently, Fpn mutations are associated with haemochromatosis. Fpn itself is post-translationally regulated by hepcidin (Hepc) which induces its redistribution and degradation in a ubiquitin-dependent process. Together, the two proteins appear to be the nexus for iron homeostasis. Here we show that a rare gain-of-function mutation (K240E) that is associated with iron overload, impedes Fpn binding and subcellular trafficking by the small ubiquitin-like modifier (SUMO). Whereas wild-type Fpn is ensconced within vesicular bodies, the FpnK240E mutant appeared diffused within the cell when co-expressed with SUMO. Furthermore, compared with wild type Fpn, the sumoylation-defective mutant was constitutively-active, resulting in a lower intracellular labile iron pool than the former. These findings suggest that SUMO may regulate iron homeostasis by controlling Fpn trafficking.http://www.sciencedirect.com/science/article/pii/S2405580820301837FerroportinIron transportSubcellular distributionSUMOSumoylation
collection DOAJ
language English
format Article
sources DOAJ
author Henry K. Bayele
Surjit Kaila S. Srai
spellingShingle Henry K. Bayele
Surjit Kaila S. Srai
A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)
Biochemistry and Biophysics Reports
Ferroportin
Iron transport
Subcellular distribution
SUMO
Sumoylation
author_facet Henry K. Bayele
Surjit Kaila S. Srai
author_sort Henry K. Bayele
title A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)
title_short A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)
title_full A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)
title_fullStr A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)
title_full_unstemmed A disease-causing mutation K240E disrupts ferroportin trafficking by SUMO (ferroportin SUMOylation)
title_sort disease-causing mutation k240e disrupts ferroportin trafficking by sumo (ferroportin sumoylation)
publisher Elsevier
series Biochemistry and Biophysics Reports
issn 2405-5808
publishDate 2021-03-01
description Ferroportin (Fpn/IREG1/MTP1) is the only known transporter mediating iron efflux from epithelial cells and macrophages, and thus regulates how much iron is released into the circulation. Consequently, Fpn mutations are associated with haemochromatosis. Fpn itself is post-translationally regulated by hepcidin (Hepc) which induces its redistribution and degradation in a ubiquitin-dependent process. Together, the two proteins appear to be the nexus for iron homeostasis. Here we show that a rare gain-of-function mutation (K240E) that is associated with iron overload, impedes Fpn binding and subcellular trafficking by the small ubiquitin-like modifier (SUMO). Whereas wild-type Fpn is ensconced within vesicular bodies, the FpnK240E mutant appeared diffused within the cell when co-expressed with SUMO. Furthermore, compared with wild type Fpn, the sumoylation-defective mutant was constitutively-active, resulting in a lower intracellular labile iron pool than the former. These findings suggest that SUMO may regulate iron homeostasis by controlling Fpn trafficking.
topic Ferroportin
Iron transport
Subcellular distribution
SUMO
Sumoylation
url http://www.sciencedirect.com/science/article/pii/S2405580820301837
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AT surjitkailassrai diseasecausingmutationk240edisruptsferroportintraffickingbysumoferroportinsumoylation
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