The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease

Disruption in copper homeostasis causes a number of cognitive and motor deficits. Wilson’s disease and Menkes disease are neurodevelopmental disorders resulting from mutations in the copper transporters ATP7A and ATP7B, with ATP7A mutations also causing occipital horn syndrome, and distal motor neur...

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Autores principales: Bakkar, Nadine, Starr, Alexander, Rabichow, Benjamin E., Lorenzini, Ileana, McEachin, Zachary T., Kraft, Robert, Chaung, Matthew, Macklin-Isquierdo, Sam, Wingfield, Taylor, Carhart, Briggs, Zahler, Nathan, Chang, Wen-Hsuan, Bassell, Gary J., Betourne, Alexandre, Boulis, Nicholas, Alworth, Samuel V., Ichida, Justin K., August, Paul R., Zarnescu, Daniela C., Sattler, Rita, Bowser, Robert
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9676097/
https://www.ncbi.nlm.nih.gov/pubmed/33359139
http://dx.doi.org/10.1016/j.nbd.2020.105228
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author Bakkar, Nadine
Starr, Alexander
Rabichow, Benjamin E.
Lorenzini, Ileana
McEachin, Zachary T.
Kraft, Robert
Chaung, Matthew
Macklin-Isquierdo, Sam
Wingfield, Taylor
Carhart, Briggs
Zahler, Nathan
Chang, Wen-Hsuan
Bassell, Gary J.
Betourne, Alexandre
Boulis, Nicholas
Alworth, Samuel V.
Ichida, Justin K.
August, Paul R.
Zarnescu, Daniela C.
Sattler, Rita
Bowser, Robert
author_facet Bakkar, Nadine
Starr, Alexander
Rabichow, Benjamin E.
Lorenzini, Ileana
McEachin, Zachary T.
Kraft, Robert
Chaung, Matthew
Macklin-Isquierdo, Sam
Wingfield, Taylor
Carhart, Briggs
Zahler, Nathan
Chang, Wen-Hsuan
Bassell, Gary J.
Betourne, Alexandre
Boulis, Nicholas
Alworth, Samuel V.
Ichida, Justin K.
August, Paul R.
Zarnescu, Daniela C.
Sattler, Rita
Bowser, Robert
author_sort Bakkar, Nadine
collection PubMed
description Disruption in copper homeostasis causes a number of cognitive and motor deficits. Wilson’s disease and Menkes disease are neurodevelopmental disorders resulting from mutations in the copper transporters ATP7A and ATP7B, with ATP7A mutations also causing occipital horn syndrome, and distal motor neuropathy. A 65 year old male presenting with brachial amyotrophic diplegia and diagnosed with amyotrophic lateral sclerosis (ALS) was found to harbor a p.Met1311Val (M1311V) substitution variant in ATP7A. ALS is a fatal neurodegenerative disease associated with progressive muscle weakness, synaptic deficits and degeneration of upper and lower motor neurons. To investigate the potential contribution of the ATP7A(M1311V) variant to neurodegeneration, we obtained and characterized both patient-derived fibroblasts and patient-derived induced pluripotent stem cells differentiated into motor neurons (iPSC-MNs), and compared them to control cell lines. We found reduced localization of ATP7A(M1311V) to the trans-Golgi network (TGN) at basal copper levels in patient-derived fibroblasts and iPSC-MNs. In addition, redistribution of ATP7A(M1311V) out of the TGN in response to increased extracellular copper was defective in patient fibroblasts. This manifested in enhanced intracellular copper accumulation and reduced survival of ATP7A(M1311V) fibroblasts. iPSC-MNs harboring the ATP7A(M1311V) variant showed decreased dendritic complexity, aberrant spontaneous firing, and decreased survival. Finally, expression of the ATP7A(M1311V) variant in Drosophila motor neurons resulted in motor deficits. Apilimod, a drug that targets vesicular transport and recently shown to enhance survival of C9orf72-ALS/FTD iPSC-MNs, also increased survival of ATP7A(M1311V) iPSC-MNs and reduced motor deficits in Drosophila expressing ATP7A(M1311V). Taken together, these observations suggest that ATP7A(M1311V) negatively impacts its role as a copper transporter and impairs several aspects of motor neuron function and morphology.
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spelling pubmed-96760972022-11-20 The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease Bakkar, Nadine Starr, Alexander Rabichow, Benjamin E. Lorenzini, Ileana McEachin, Zachary T. Kraft, Robert Chaung, Matthew Macklin-Isquierdo, Sam Wingfield, Taylor Carhart, Briggs Zahler, Nathan Chang, Wen-Hsuan Bassell, Gary J. Betourne, Alexandre Boulis, Nicholas Alworth, Samuel V. Ichida, Justin K. August, Paul R. Zarnescu, Daniela C. Sattler, Rita Bowser, Robert Neurobiol Dis Article Disruption in copper homeostasis causes a number of cognitive and motor deficits. Wilson’s disease and Menkes disease are neurodevelopmental disorders resulting from mutations in the copper transporters ATP7A and ATP7B, with ATP7A mutations also causing occipital horn syndrome, and distal motor neuropathy. A 65 year old male presenting with brachial amyotrophic diplegia and diagnosed with amyotrophic lateral sclerosis (ALS) was found to harbor a p.Met1311Val (M1311V) substitution variant in ATP7A. ALS is a fatal neurodegenerative disease associated with progressive muscle weakness, synaptic deficits and degeneration of upper and lower motor neurons. To investigate the potential contribution of the ATP7A(M1311V) variant to neurodegeneration, we obtained and characterized both patient-derived fibroblasts and patient-derived induced pluripotent stem cells differentiated into motor neurons (iPSC-MNs), and compared them to control cell lines. We found reduced localization of ATP7A(M1311V) to the trans-Golgi network (TGN) at basal copper levels in patient-derived fibroblasts and iPSC-MNs. In addition, redistribution of ATP7A(M1311V) out of the TGN in response to increased extracellular copper was defective in patient fibroblasts. This manifested in enhanced intracellular copper accumulation and reduced survival of ATP7A(M1311V) fibroblasts. iPSC-MNs harboring the ATP7A(M1311V) variant showed decreased dendritic complexity, aberrant spontaneous firing, and decreased survival. Finally, expression of the ATP7A(M1311V) variant in Drosophila motor neurons resulted in motor deficits. Apilimod, a drug that targets vesicular transport and recently shown to enhance survival of C9orf72-ALS/FTD iPSC-MNs, also increased survival of ATP7A(M1311V) iPSC-MNs and reduced motor deficits in Drosophila expressing ATP7A(M1311V). Taken together, these observations suggest that ATP7A(M1311V) negatively impacts its role as a copper transporter and impairs several aspects of motor neuron function and morphology. 2021-02 2020-12-24 /pmc/articles/PMC9676097/ /pubmed/33359139 http://dx.doi.org/10.1016/j.nbd.2020.105228 Text en https://creativecommons.org/licenses/by/4.0/This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) ).
spellingShingle Article
Bakkar, Nadine
Starr, Alexander
Rabichow, Benjamin E.
Lorenzini, Ileana
McEachin, Zachary T.
Kraft, Robert
Chaung, Matthew
Macklin-Isquierdo, Sam
Wingfield, Taylor
Carhart, Briggs
Zahler, Nathan
Chang, Wen-Hsuan
Bassell, Gary J.
Betourne, Alexandre
Boulis, Nicholas
Alworth, Samuel V.
Ichida, Justin K.
August, Paul R.
Zarnescu, Daniela C.
Sattler, Rita
Bowser, Robert
The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
title The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
title_full The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
title_fullStr The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
title_full_unstemmed The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
title_short The M1311V variant of ATP7A is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
title_sort m1311v variant of atp7a is associated with impaired trafficking and copper homeostasis in models of motor neuron disease
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9676097/
https://www.ncbi.nlm.nih.gov/pubmed/33359139
http://dx.doi.org/10.1016/j.nbd.2020.105228
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