Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain

TRPM2 a cation channel is also known to work as an enzyme that hydrolyzes highly reactive, neurotoxic ADP-ribose (ADPR). Although ADPR is hydrolyzed by NUT9 pyrophosphatase in major organs, the enzyme is defective in the brain. The present study questions the role of TRPM2 in the catabolism of ADPR...

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Autores principales: Jang, Yongwoo, Lee, Byeongjun, Kim, Hyungsup, Jung, Seungmoon, Lee, Sung Hoon, Lee, So-Young, Jeon, Ji Hyun, Kim, In-Beom, Lee, Seo-Ho, Kim, Byung-Ju, Kim, Uh-Hyun, Lee, Yunjong, Kim, Sung Min, Jeon, Daejong, Oh, Uhtaek
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Springer US 2018
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6477016/
https://www.ncbi.nlm.nih.gov/pubmed/30215158
http://dx.doi.org/10.1007/s12035-018-1309-0
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author Jang, Yongwoo
Lee, Byeongjun
Kim, Hyungsup
Jung, Seungmoon
Lee, Sung Hoon
Lee, So-Young
Jeon, Ji Hyun
Kim, In-Beom
Lee, Seo-Ho
Kim, Byung-Ju
Kim, Uh-Hyun
Lee, Yunjong
Kim, Sung Min
Jeon, Daejong
Oh, Uhtaek
author_facet Jang, Yongwoo
Lee, Byeongjun
Kim, Hyungsup
Jung, Seungmoon
Lee, Sung Hoon
Lee, So-Young
Jeon, Ji Hyun
Kim, In-Beom
Lee, Seo-Ho
Kim, Byung-Ju
Kim, Uh-Hyun
Lee, Yunjong
Kim, Sung Min
Jeon, Daejong
Oh, Uhtaek
author_sort Jang, Yongwoo
collection PubMed
description TRPM2 a cation channel is also known to work as an enzyme that hydrolyzes highly reactive, neurotoxic ADP-ribose (ADPR). Although ADPR is hydrolyzed by NUT9 pyrophosphatase in major organs, the enzyme is defective in the brain. The present study questions the role of TRPM2 in the catabolism of ADPR in the brain. Genetic ablation of Trpm2 results in the disruption of ADPR catabolism that leads to the accumulation of ADPR and reduction in AMP. Trpm2(−/−) mice elicit the reduction in autophagosome formation in the hippocampus. Trpm2(−/−) mice also show aggregations of proteins in the hippocampus, aberrant structural changes and neuronal connections in synapses, and neuronal degeneration. Trpm2(−/−) mice exhibit learning and memory impairment, enhanced neuronal intrinsic excitability, and imbalanced synaptic transmission. These results respond to long-unanswered questions regarding the potential role of the enzymatic function of TRPM2 in the brain, whose dysfunction evokes protein aggregation. In addition, the present finding answers to the conflicting reports such as neuroprotective or neurodegenerative phenotypes observed in Trpm2(−/−) mice. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s12035-018-1309-0) contains supplementary material, which is available to authorized users.
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spelling pubmed-64770162019-05-14 Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain Jang, Yongwoo Lee, Byeongjun Kim, Hyungsup Jung, Seungmoon Lee, Sung Hoon Lee, So-Young Jeon, Ji Hyun Kim, In-Beom Lee, Seo-Ho Kim, Byung-Ju Kim, Uh-Hyun Lee, Yunjong Kim, Sung Min Jeon, Daejong Oh, Uhtaek Mol Neurobiol Article TRPM2 a cation channel is also known to work as an enzyme that hydrolyzes highly reactive, neurotoxic ADP-ribose (ADPR). Although ADPR is hydrolyzed by NUT9 pyrophosphatase in major organs, the enzyme is defective in the brain. The present study questions the role of TRPM2 in the catabolism of ADPR in the brain. Genetic ablation of Trpm2 results in the disruption of ADPR catabolism that leads to the accumulation of ADPR and reduction in AMP. Trpm2(−/−) mice elicit the reduction in autophagosome formation in the hippocampus. Trpm2(−/−) mice also show aggregations of proteins in the hippocampus, aberrant structural changes and neuronal connections in synapses, and neuronal degeneration. Trpm2(−/−) mice exhibit learning and memory impairment, enhanced neuronal intrinsic excitability, and imbalanced synaptic transmission. These results respond to long-unanswered questions regarding the potential role of the enzymatic function of TRPM2 in the brain, whose dysfunction evokes protein aggregation. In addition, the present finding answers to the conflicting reports such as neuroprotective or neurodegenerative phenotypes observed in Trpm2(−/−) mice. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1007/s12035-018-1309-0) contains supplementary material, which is available to authorized users. Springer US 2018-09-13 2019 /pmc/articles/PMC6477016/ /pubmed/30215158 http://dx.doi.org/10.1007/s12035-018-1309-0 Text en © The Author(s) 2018 Open Access This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
spellingShingle Article
Jang, Yongwoo
Lee, Byeongjun
Kim, Hyungsup
Jung, Seungmoon
Lee, Sung Hoon
Lee, So-Young
Jeon, Ji Hyun
Kim, In-Beom
Lee, Seo-Ho
Kim, Byung-Ju
Kim, Uh-Hyun
Lee, Yunjong
Kim, Sung Min
Jeon, Daejong
Oh, Uhtaek
Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain
title Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain
title_full Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain
title_fullStr Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain
title_full_unstemmed Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain
title_short Trpm2 Ablation Accelerates Protein Aggregation by Impaired ADPR and Autophagic Clearance in the Brain
title_sort trpm2 ablation accelerates protein aggregation by impaired adpr and autophagic clearance in the brain
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6477016/
https://www.ncbi.nlm.nih.gov/pubmed/30215158
http://dx.doi.org/10.1007/s12035-018-1309-0
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