The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders

The deleterious effects of a disrupted copper metabolism are illustrated by hereditary diseases caused by mutations in the genes coding for the copper transporters ATP7A and ATP7B. Menkes disease, involving ATP7A, is a fatal neurodegenerative disorder of copper deficiency. Mutations in ATP7B lead to...

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Autores principales: Fieten, Hille, Gill, Yadvinder, Martin, Alan J., Concilli, Mafalda, Dirksen, Karen, van Steenbeek, Frank G., Spee, Bart, van den Ingh, Ted S. G. A. M., Martens, Ellen C. C. P., Festa, Paola, Chesi, Giancarlo, van de Sluis, Bart, Houwen, Roderick H. J. H., Watson, Adrian L., Aulchenko, Yurii S., Hodgkinson, Victoria L., Zhu, Sha, Petris, Michael J., Polishchuk, Roman S., Leegwater, Peter A. J., Rothuizen, Jan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Company of Biologists Ltd 2016
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4728329/
https://www.ncbi.nlm.nih.gov/pubmed/26747866
http://dx.doi.org/10.1242/dmm.020263
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author Fieten, Hille
Gill, Yadvinder
Martin, Alan J.
Concilli, Mafalda
Dirksen, Karen
van Steenbeek, Frank G.
Spee, Bart
van den Ingh, Ted S. G. A. M.
Martens, Ellen C. C. P.
Festa, Paola
Chesi, Giancarlo
van de Sluis, Bart
Houwen, Roderick H. J. H.
Watson, Adrian L.
Aulchenko, Yurii S.
Hodgkinson, Victoria L.
Zhu, Sha
Petris, Michael J.
Polishchuk, Roman S.
Leegwater, Peter A. J.
Rothuizen, Jan
author_facet Fieten, Hille
Gill, Yadvinder
Martin, Alan J.
Concilli, Mafalda
Dirksen, Karen
van Steenbeek, Frank G.
Spee, Bart
van den Ingh, Ted S. G. A. M.
Martens, Ellen C. C. P.
Festa, Paola
Chesi, Giancarlo
van de Sluis, Bart
Houwen, Roderick H. J. H.
Watson, Adrian L.
Aulchenko, Yurii S.
Hodgkinson, Victoria L.
Zhu, Sha
Petris, Michael J.
Polishchuk, Roman S.
Leegwater, Peter A. J.
Rothuizen, Jan
author_sort Fieten, Hille
collection PubMed
description The deleterious effects of a disrupted copper metabolism are illustrated by hereditary diseases caused by mutations in the genes coding for the copper transporters ATP7A and ATP7B. Menkes disease, involving ATP7A, is a fatal neurodegenerative disorder of copper deficiency. Mutations in ATP7B lead to Wilson disease, which is characterized by a predominantly hepatic copper accumulation. The low incidence and the phenotypic variability of human copper toxicosis hamper identification of causal genes or modifier genes involved in the disease pathogenesis. The Labrador retriever was recently characterized as a new canine model for copper toxicosis. Purebred dogs have reduced genetic variability, which facilitates identification of genes involved in complex heritable traits that might influence phenotype in both humans and dogs. We performed a genome-wide association study in 235 Labrador retrievers and identified two chromosome regions containing ATP7A and ATP7B that were associated with variation in hepatic copper levels. DNA sequence analysis identified missense mutations in each gene. The amino acid substitution ATP7B:p.Arg1453Gln was associated with copper accumulation, whereas the amino acid substitution ATP7A:p.Thr327Ile partly protected against copper accumulation. Confocal microscopy indicated that aberrant copper metabolism upon expression of the ATP7B variant occurred because of mis-localization of the protein in the endoplasmic reticulum. Dermal fibroblasts derived from ATP7A:p.Thr327Ile dogs showed copper accumulation and delayed excretion. We identified the Labrador retriever as the first natural, non-rodent model for ATP7B-associated copper toxicosis. Attenuation of copper accumulation by the ATP7A mutation sheds an interesting light on the interplay of copper transporters in body copper homeostasis and warrants a thorough investigation of ATP7A as a modifier gene in copper-metabolism disorders. The identification of two new functional variants in ATP7A and ATP7B contributes to the biological understanding of protein function, with relevance for future development of therapy.
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spelling pubmed-47283292016-02-01 The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders Fieten, Hille Gill, Yadvinder Martin, Alan J. Concilli, Mafalda Dirksen, Karen van Steenbeek, Frank G. Spee, Bart van den Ingh, Ted S. G. A. M. Martens, Ellen C. C. P. Festa, Paola Chesi, Giancarlo van de Sluis, Bart Houwen, Roderick H. J. H. Watson, Adrian L. Aulchenko, Yurii S. Hodgkinson, Victoria L. Zhu, Sha Petris, Michael J. Polishchuk, Roman S. Leegwater, Peter A. J. Rothuizen, Jan Dis Model Mech Research Article The deleterious effects of a disrupted copper metabolism are illustrated by hereditary diseases caused by mutations in the genes coding for the copper transporters ATP7A and ATP7B. Menkes disease, involving ATP7A, is a fatal neurodegenerative disorder of copper deficiency. Mutations in ATP7B lead to Wilson disease, which is characterized by a predominantly hepatic copper accumulation. The low incidence and the phenotypic variability of human copper toxicosis hamper identification of causal genes or modifier genes involved in the disease pathogenesis. The Labrador retriever was recently characterized as a new canine model for copper toxicosis. Purebred dogs have reduced genetic variability, which facilitates identification of genes involved in complex heritable traits that might influence phenotype in both humans and dogs. We performed a genome-wide association study in 235 Labrador retrievers and identified two chromosome regions containing ATP7A and ATP7B that were associated with variation in hepatic copper levels. DNA sequence analysis identified missense mutations in each gene. The amino acid substitution ATP7B:p.Arg1453Gln was associated with copper accumulation, whereas the amino acid substitution ATP7A:p.Thr327Ile partly protected against copper accumulation. Confocal microscopy indicated that aberrant copper metabolism upon expression of the ATP7B variant occurred because of mis-localization of the protein in the endoplasmic reticulum. Dermal fibroblasts derived from ATP7A:p.Thr327Ile dogs showed copper accumulation and delayed excretion. We identified the Labrador retriever as the first natural, non-rodent model for ATP7B-associated copper toxicosis. Attenuation of copper accumulation by the ATP7A mutation sheds an interesting light on the interplay of copper transporters in body copper homeostasis and warrants a thorough investigation of ATP7A as a modifier gene in copper-metabolism disorders. The identification of two new functional variants in ATP7A and ATP7B contributes to the biological understanding of protein function, with relevance for future development of therapy. The Company of Biologists Ltd 2016-01-01 /pmc/articles/PMC4728329/ /pubmed/26747866 http://dx.doi.org/10.1242/dmm.020263 Text en © 2016. Published by The Company of Biologists Ltd http://creativecommons.org/licenses/by/3.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
spellingShingle Research Article
Fieten, Hille
Gill, Yadvinder
Martin, Alan J.
Concilli, Mafalda
Dirksen, Karen
van Steenbeek, Frank G.
Spee, Bart
van den Ingh, Ted S. G. A. M.
Martens, Ellen C. C. P.
Festa, Paola
Chesi, Giancarlo
van de Sluis, Bart
Houwen, Roderick H. J. H.
Watson, Adrian L.
Aulchenko, Yurii S.
Hodgkinson, Victoria L.
Zhu, Sha
Petris, Michael J.
Polishchuk, Roman S.
Leegwater, Peter A. J.
Rothuizen, Jan
The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders
title The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders
title_full The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders
title_fullStr The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders
title_full_unstemmed The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders
title_short The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders
title_sort menkes and wilson disease genes counteract in copper toxicosis in labrador retrievers: a new canine model for copper-metabolism disorders
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4728329/
https://www.ncbi.nlm.nih.gov/pubmed/26747866
http://dx.doi.org/10.1242/dmm.020263
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