Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway

The effect of glucose-dependent insulinotropic polypeptide (GIP) on cells under oxidative stress induced by glutamate, a neurotransmitter, and the underlying molecular mechanisms were assessed in the present study. We found that in the pre-treatment of HT-22 cells with glutamate in a dose-dependent...

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Autores principales: Ko, Jiwon, Jang, Soyoung, Kwon, Wookbong, Kim, Si-Yong, Jang, Soyeon, Kim, Eungyung, Ji, Young-Rae, Park, Sijun, Kim, Myoung-Ok, Choi, Seong-Kyoon, Cho, Dong-Hyung, Lee, Hyun-Shik, Lim, Su-Geun, Ryoo, Zae-Young
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8868324/
https://www.ncbi.nlm.nih.gov/pubmed/35204073
http://dx.doi.org/10.3390/antiox11020189
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author Ko, Jiwon
Jang, Soyoung
Kwon, Wookbong
Kim, Si-Yong
Jang, Soyeon
Kim, Eungyung
Ji, Young-Rae
Park, Sijun
Kim, Myoung-Ok
Choi, Seong-Kyoon
Cho, Dong-Hyung
Lee, Hyun-Shik
Lim, Su-Geun
Ryoo, Zae-Young
author_facet Ko, Jiwon
Jang, Soyoung
Kwon, Wookbong
Kim, Si-Yong
Jang, Soyeon
Kim, Eungyung
Ji, Young-Rae
Park, Sijun
Kim, Myoung-Ok
Choi, Seong-Kyoon
Cho, Dong-Hyung
Lee, Hyun-Shik
Lim, Su-Geun
Ryoo, Zae-Young
author_sort Ko, Jiwon
collection PubMed
description The effect of glucose-dependent insulinotropic polypeptide (GIP) on cells under oxidative stress induced by glutamate, a neurotransmitter, and the underlying molecular mechanisms were assessed in the present study. We found that in the pre-treatment of HT-22 cells with glutamate in a dose-dependent manner, intracellular ROS were excessively generated, and additional cell damage occurred in the form of lipid peroxidation. The neurotoxicity caused by excessive glutamate was found to be ferroptosis and not apoptosis. Other factors (GPx-4, Nrf2, Nox1 and Hspb1) involved in ferroptosis were also identified. In other words, it was confirmed that GIP increased the activity of sub-signalling molecules in the process of suppressing ferroptosis as an antioxidant and maintained a stable cell cycle even under glutamate-induced neurotoxicity. At the same time, in HT-22 cells exposed to ferroptosis as a result of excessive glutamate accumulation, GIP sustained cell viability by activating the mitogen-activated protein kinase (MAPK) signalling pathway. These results suggest that the overexpression of the GIP gene increases cell viability by regulating mechanisms related to cytotoxicity and reactive oxygen species production in hippocampal neuronal cell lines.
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spelling pubmed-88683242022-02-25 Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway Ko, Jiwon Jang, Soyoung Kwon, Wookbong Kim, Si-Yong Jang, Soyeon Kim, Eungyung Ji, Young-Rae Park, Sijun Kim, Myoung-Ok Choi, Seong-Kyoon Cho, Dong-Hyung Lee, Hyun-Shik Lim, Su-Geun Ryoo, Zae-Young Antioxidants (Basel) Article The effect of glucose-dependent insulinotropic polypeptide (GIP) on cells under oxidative stress induced by glutamate, a neurotransmitter, and the underlying molecular mechanisms were assessed in the present study. We found that in the pre-treatment of HT-22 cells with glutamate in a dose-dependent manner, intracellular ROS were excessively generated, and additional cell damage occurred in the form of lipid peroxidation. The neurotoxicity caused by excessive glutamate was found to be ferroptosis and not apoptosis. Other factors (GPx-4, Nrf2, Nox1 and Hspb1) involved in ferroptosis were also identified. In other words, it was confirmed that GIP increased the activity of sub-signalling molecules in the process of suppressing ferroptosis as an antioxidant and maintained a stable cell cycle even under glutamate-induced neurotoxicity. At the same time, in HT-22 cells exposed to ferroptosis as a result of excessive glutamate accumulation, GIP sustained cell viability by activating the mitogen-activated protein kinase (MAPK) signalling pathway. These results suggest that the overexpression of the GIP gene increases cell viability by regulating mechanisms related to cytotoxicity and reactive oxygen species production in hippocampal neuronal cell lines. MDPI 2022-01-19 /pmc/articles/PMC8868324/ /pubmed/35204073 http://dx.doi.org/10.3390/antiox11020189 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ko, Jiwon
Jang, Soyoung
Kwon, Wookbong
Kim, Si-Yong
Jang, Soyeon
Kim, Eungyung
Ji, Young-Rae
Park, Sijun
Kim, Myoung-Ok
Choi, Seong-Kyoon
Cho, Dong-Hyung
Lee, Hyun-Shik
Lim, Su-Geun
Ryoo, Zae-Young
Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway
title Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway
title_full Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway
title_fullStr Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway
title_full_unstemmed Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway
title_short Protective Effect of GIP against Monosodium Glutamate-Induced Ferroptosis in Mouse Hippocampal HT-22 Cells through the MAPK Signaling Pathway
title_sort protective effect of gip against monosodium glutamate-induced ferroptosis in mouse hippocampal ht-22 cells through the mapk signaling pathway
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8868324/
https://www.ncbi.nlm.nih.gov/pubmed/35204073
http://dx.doi.org/10.3390/antiox11020189
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