Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis

Miner1 is a redox-active 2Fe2S cluster protein. Mutations in Miner1 result in Wolfram Syndrome, a metabolic disease associated with diabetes, blindness, deafness, and a shortened lifespan. Embryonic fibroblasts from Miner1(−/−) mice displayed ER stress and showed hallmarks of the unfolded protein re...

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Autores principales: Wiley, Sandra E, Andreyev, Alexander Y, Divakaruni, Ajit S, Karisch, Robert, Perkins, Guy, Wall, Estelle A, van der Geer, Peter, Chen, Yi-Fan, Tsai, Ting-Fen, Simon, Melvin I, Neel, Benjamin G, Dixon, Jack E, Murphy, Anne N
Formato: Online Artículo Texto
Lenguaje:English
Publicado: WILEY-VCH Verlag 2013
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Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3779451/
https://www.ncbi.nlm.nih.gov/pubmed/23703906
http://dx.doi.org/10.1002/emmm.201201429
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author Wiley, Sandra E
Andreyev, Alexander Y
Divakaruni, Ajit S
Karisch, Robert
Perkins, Guy
Wall, Estelle A
van der Geer, Peter
Chen, Yi-Fan
Tsai, Ting-Fen
Simon, Melvin I
Neel, Benjamin G
Dixon, Jack E
Murphy, Anne N
author_facet Wiley, Sandra E
Andreyev, Alexander Y
Divakaruni, Ajit S
Karisch, Robert
Perkins, Guy
Wall, Estelle A
van der Geer, Peter
Chen, Yi-Fan
Tsai, Ting-Fen
Simon, Melvin I
Neel, Benjamin G
Dixon, Jack E
Murphy, Anne N
author_sort Wiley, Sandra E
collection PubMed
description Miner1 is a redox-active 2Fe2S cluster protein. Mutations in Miner1 result in Wolfram Syndrome, a metabolic disease associated with diabetes, blindness, deafness, and a shortened lifespan. Embryonic fibroblasts from Miner1(−/−) mice displayed ER stress and showed hallmarks of the unfolded protein response. In addition, loss of Miner1 caused a depletion of ER Ca(2+) stores, a dramatic increase in mitochondrial Ca(2+) load, increased reactive oxygen and nitrogen species, an increase in the GSSG/GSH and NAD(+)/NADH ratios, and an increase in the ADP/ATP ratio consistent with enhanced ATP utilization. Furthermore, mitochondria in fibroblasts lacking Miner1 displayed ultrastructural alterations, such as increased cristae density and punctate morphology, and an increase in O(2) consumption. Treatment with the sulphydryl anti-oxidant N-acetylcysteine reversed the abnormalities in the Miner1 deficient cells, suggesting that sulphydryl reducing agents should be explored as a treatment for this rare genetic disease.
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spelling pubmed-37794512013-09-23 Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis Wiley, Sandra E Andreyev, Alexander Y Divakaruni, Ajit S Karisch, Robert Perkins, Guy Wall, Estelle A van der Geer, Peter Chen, Yi-Fan Tsai, Ting-Fen Simon, Melvin I Neel, Benjamin G Dixon, Jack E Murphy, Anne N EMBO Mol Med Research Articles Miner1 is a redox-active 2Fe2S cluster protein. Mutations in Miner1 result in Wolfram Syndrome, a metabolic disease associated with diabetes, blindness, deafness, and a shortened lifespan. Embryonic fibroblasts from Miner1(−/−) mice displayed ER stress and showed hallmarks of the unfolded protein response. In addition, loss of Miner1 caused a depletion of ER Ca(2+) stores, a dramatic increase in mitochondrial Ca(2+) load, increased reactive oxygen and nitrogen species, an increase in the GSSG/GSH and NAD(+)/NADH ratios, and an increase in the ADP/ATP ratio consistent with enhanced ATP utilization. Furthermore, mitochondria in fibroblasts lacking Miner1 displayed ultrastructural alterations, such as increased cristae density and punctate morphology, and an increase in O(2) consumption. Treatment with the sulphydryl anti-oxidant N-acetylcysteine reversed the abnormalities in the Miner1 deficient cells, suggesting that sulphydryl reducing agents should be explored as a treatment for this rare genetic disease. WILEY-VCH Verlag 2013-06 2013-05-24 /pmc/articles/PMC3779451/ /pubmed/23703906 http://dx.doi.org/10.1002/emmm.201201429 Text en Copyright © 2013 The Authors. Published by John Wiley and Sons, Ltd on behalf of EMBO http://creativecommons.org/licenses/by/2.5/ Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.
spellingShingle Research Articles
Wiley, Sandra E
Andreyev, Alexander Y
Divakaruni, Ajit S
Karisch, Robert
Perkins, Guy
Wall, Estelle A
van der Geer, Peter
Chen, Yi-Fan
Tsai, Ting-Fen
Simon, Melvin I
Neel, Benjamin G
Dixon, Jack E
Murphy, Anne N
Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis
title Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis
title_full Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis
title_fullStr Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis
title_full_unstemmed Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis
title_short Wolfram Syndrome protein, Miner1, regulates sulphydryl redox status, the unfolded protein response, and Ca(2+) homeostasis
title_sort wolfram syndrome protein, miner1, regulates sulphydryl redox status, the unfolded protein response, and ca(2+) homeostasis
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3779451/
https://www.ncbi.nlm.nih.gov/pubmed/23703906
http://dx.doi.org/10.1002/emmm.201201429
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