Nitro-oxidative stress after neuronal ischemia induces protein nitrotyrosination and cell death

Marta Tajes; Gerard Ill-Raga; Ernest Palomer; Eva Ramos-Fernández; Francesc X. Guix; Mònica Bosch-Morató; Biuse Guivernau; Jordi Jiménez-Conde; Angel Ois; Fernando Pérez-Asensio; Mario Reyes-Navarro; Carolina Caballo; Ana M. Galán; Francesc Alameda; Ginés Escolar; Carlos Opazo; Anna Planas; Jaume Roquer; Miguel A. Valverde; Francisco J. Muñoz

doi:10.1155/2013/826143

Nitro-oxidative stress after neuronal ischemia induces protein nitrotyrosination and cell death

Marta Tajes, Gerard Ill-Raga, Ernest Palomer, Eva Ramos-Fernández, Francesc X. Guix, Mònica Bosch-Morató, Biuse Guivernau, Jordi Jiménez-Conde, Angel Ois, Fernando Pérez-Asensio, Mario Reyes-Navarro, Carolina Caballo, Ana M. Galán, Francesc Alameda, Ginés Escolar, Carlos Opazo, Anna Planas, Jaume Roquer, Miguel A. Valverde, Francisco J. Muñoz^*

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

44 Citations (Scopus)

Abstract

Ischemic stroke is an acute vascular event that obstructs blood supply to the brain, producing irreversible damage that affects neurons but also glial and brain vessel cells. Immediately after the stroke, the ischemic tissue produces nitric oxide (NO) to recover blood perfusion but also produces superoxide anion. These compounds interact, producing peroxynitrite, which irreversibly nitrates protein tyrosines. The present study measured NO production in a human neuroblastoma (SH-SY5Y), a murine glial (BV2), a human endothelial cell line (HUVEC), and in primary cultures of human cerebral myocytes (HC-VSMCs) after experimental ischemia in vitro. Neuronal, endothelial, and inducible NO synthase (NOS) expression was also studied up to 24 h after ischemia, showing a different time course depending on the NOS type and the cells studied. Finally, we carried out cell viability experiments on SH-SY5Y cells with H2O2, a prooxidant agent, and with a NO donor to mimic ischemic conditions. We found that both compounds were highly toxic when they interacted, producing peroxynitrite. We obtained similar results when all cells were challenged with peroxynitrite. Our data suggest that peroxynitrite induces cell death and is a very harmful agent in brain ischemia.

Original language	English
Article number	826143
Number of pages	9
Journal	Oxidative Medicine and Cellular Longevity
DOIs	https://doi.org/10.1155/2013/826143
Publication status	Published - 2013
Externally published	Yes

Keywords

Oxide synthase
Brain-injury
Peroxynitrite
Mice
Pathophysiology
Biochemistry
Induction
Survival
No

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10.1155/2013/826143

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Tajes, M., Ill-Raga, G., Palomer, E., Ramos-Fernández, E., Guix, F. X., Bosch-Morató, M., Guivernau, B., Jiménez-Conde, J., Ois, A., Pérez-Asensio, F., Reyes-Navarro, M., Caballo, C., Galán, A. M., Alameda, F., Escolar, G., Opazo, C., Planas, A., Roquer, J., Valverde, M. A., & Muñoz, F. J. (2013). Nitro-oxidative stress after neuronal ischemia induces protein nitrotyrosination and cell death. Oxidative Medicine and Cellular Longevity, Article 826143. https://doi.org/10.1155/2013/826143

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abstract = "Ischemic stroke is an acute vascular event that obstructs blood supply to the brain, producing irreversible damage that affects neurons but also glial and brain vessel cells. Immediately after the stroke, the ischemic tissue produces nitric oxide (NO) to recover blood perfusion but also produces superoxide anion. These compounds interact, producing peroxynitrite, which irreversibly nitrates protein tyrosines. The present study measured NO production in a human neuroblastoma (SH-SY5Y), a murine glial (BV2), a human endothelial cell line (HUVEC), and in primary cultures of human cerebral myocytes (HC-VSMCs) after experimental ischemia in vitro. Neuronal, endothelial, and inducible NO synthase (NOS) expression was also studied up to 24 h after ischemia, showing a different time course depending on the NOS type and the cells studied. Finally, we carried out cell viability experiments on SH-SY5Y cells with H2O2, a prooxidant agent, and with a NO donor to mimic ischemic conditions. We found that both compounds were highly toxic when they interacted, producing peroxynitrite. We obtained similar results when all cells were challenged with peroxynitrite. Our data suggest that peroxynitrite induces cell death and is a very harmful agent in brain ischemia.",

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Tajes, M, Ill-Raga, G, Palomer, E, Ramos-Fernández, E, Guix, FX, Bosch-Morató, M, Guivernau, B, Jiménez-Conde, J, Ois, A, Pérez-Asensio, F, Reyes-Navarro, M, Caballo, C, Galán, AM, Alameda, F, Escolar, G, Opazo, C, Planas, A, Roquer, J, Valverde, MA & Muñoz, FJ 2013, 'Nitro-oxidative stress after neuronal ischemia induces protein nitrotyrosination and cell death', Oxidative Medicine and Cellular Longevity. https://doi.org/10.1155/2013/826143

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T1 - Nitro-oxidative stress after neuronal ischemia induces protein nitrotyrosination and cell death

AU - Tajes, Marta

AU - Ill-Raga, Gerard

AU - Palomer, Ernest

AU - Ramos-Fernández, Eva

AU - Guix, Francesc X.

AU - Bosch-Morató, Mònica

AU - Guivernau, Biuse

AU - Jiménez-Conde, Jordi

AU - Ois, Angel

AU - Pérez-Asensio, Fernando

AU - Reyes-Navarro, Mario

AU - Caballo, Carolina

AU - Galán, Ana M.

AU - Alameda, Francesc

AU - Escolar, Ginés

AU - Opazo, Carlos

AU - Planas, Anna

AU - Roquer, Jaume

AU - Valverde, Miguel A.

AU - Muñoz, Francisco J.

PY - 2013

Y1 - 2013

N2 - Ischemic stroke is an acute vascular event that obstructs blood supply to the brain, producing irreversible damage that affects neurons but also glial and brain vessel cells. Immediately after the stroke, the ischemic tissue produces nitric oxide (NO) to recover blood perfusion but also produces superoxide anion. These compounds interact, producing peroxynitrite, which irreversibly nitrates protein tyrosines. The present study measured NO production in a human neuroblastoma (SH-SY5Y), a murine glial (BV2), a human endothelial cell line (HUVEC), and in primary cultures of human cerebral myocytes (HC-VSMCs) after experimental ischemia in vitro. Neuronal, endothelial, and inducible NO synthase (NOS) expression was also studied up to 24 h after ischemia, showing a different time course depending on the NOS type and the cells studied. Finally, we carried out cell viability experiments on SH-SY5Y cells with H2O2, a prooxidant agent, and with a NO donor to mimic ischemic conditions. We found that both compounds were highly toxic when they interacted, producing peroxynitrite. We obtained similar results when all cells were challenged with peroxynitrite. Our data suggest that peroxynitrite induces cell death and is a very harmful agent in brain ischemia.

AB - Ischemic stroke is an acute vascular event that obstructs blood supply to the brain, producing irreversible damage that affects neurons but also glial and brain vessel cells. Immediately after the stroke, the ischemic tissue produces nitric oxide (NO) to recover blood perfusion but also produces superoxide anion. These compounds interact, producing peroxynitrite, which irreversibly nitrates protein tyrosines. The present study measured NO production in a human neuroblastoma (SH-SY5Y), a murine glial (BV2), a human endothelial cell line (HUVEC), and in primary cultures of human cerebral myocytes (HC-VSMCs) after experimental ischemia in vitro. Neuronal, endothelial, and inducible NO synthase (NOS) expression was also studied up to 24 h after ischemia, showing a different time course depending on the NOS type and the cells studied. Finally, we carried out cell viability experiments on SH-SY5Y cells with H2O2, a prooxidant agent, and with a NO donor to mimic ischemic conditions. We found that both compounds were highly toxic when they interacted, producing peroxynitrite. We obtained similar results when all cells were challenged with peroxynitrite. Our data suggest that peroxynitrite induces cell death and is a very harmful agent in brain ischemia.

KW - Oxide synthase

KW - Brain-injury

KW - Peroxynitrite

KW - Mice

KW - Pathophysiology

KW - Biochemistry

KW - Induction

KW - Survival

KW - No

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JO - Oxidative Medicine and Cellular Longevity

JF - Oxidative Medicine and Cellular Longevity

M1 - 826143

ER -

Nitro-oxidative stress after neuronal ischemia induces protein nitrotyrosination and cell death

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Keywords

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