Oxidative stress induced post-translational protein modifications are associated with the development of inflammatory hypersensitivities. At least 90% of cellular reactive oxygen species (ROS) are produced in the mitochondria, where the mitochondrial antioxidant, manganese superoxide dismutase (MnSOD), is located. MnSOD's ability to reduce ROS is enhanced by the mitochondrial NAD+-dependent deacetylase sirtuin (SIRT3). SIRT3 can reduce ROS levels by deacetylating MnSOD and enhancing its ability to neutralize ROS or by enhancing the transcription of MnSOD and other oxidative stress-responsive genes. SIRT3 can be post-translationally modified through carbonylation which results in loss of activity. The contribution of post-translational SIRT3 modifications in central sensitization is largely unexplored. Our results reveal that SIRT3 carbonylation contributes to spinal MnSOD inactivation during carrageenan-induced thermal hyperalgesia in rats. Moreover, inhibiting ROS with natural and synthetic antioxidants, prevented SIRT3 carbonylation, restored the enzymatic activity of MnSOD, and blocked the development of thermal hyperalgesia. These results suggest that therapeutic strategies aimed at inhibiting post-translational modifications of SIRT3 may provide beneficial outcomes in pain states where ROS have been documented to play an important role in the development of central sensitization.

Antioxidant modulation of sirtuin 3 during acute inflammatory pain: The ROS control / Ilari, S.; Giancotti, L. A.; Lauro, F.; Dagostino, C.; Gliozzi, M.; Malafoglia, V.; Sansone, L.; Palma, E.; Tafani, M.; Russo, M. A.; Tomino, C.; Fini, M.; Salvemini, D.; Mollace, V.; Muscoli, C.. - In: PHARMACOLOGICAL RESEARCH. - ISSN 1043-6618. - 157:(2020), pp. 1-11. [10.1016/j.phrs.2020.104851]

Antioxidant modulation of sirtuin 3 during acute inflammatory pain: The ROS control

Ilari S.;Giancotti L. A.;Lauro F.;Dagostino C.;Sansone L.;Tafani M.;Tomino C.;Fini M.;
2020

Abstract

Oxidative stress induced post-translational protein modifications are associated with the development of inflammatory hypersensitivities. At least 90% of cellular reactive oxygen species (ROS) are produced in the mitochondria, where the mitochondrial antioxidant, manganese superoxide dismutase (MnSOD), is located. MnSOD's ability to reduce ROS is enhanced by the mitochondrial NAD+-dependent deacetylase sirtuin (SIRT3). SIRT3 can reduce ROS levels by deacetylating MnSOD and enhancing its ability to neutralize ROS or by enhancing the transcription of MnSOD and other oxidative stress-responsive genes. SIRT3 can be post-translationally modified through carbonylation which results in loss of activity. The contribution of post-translational SIRT3 modifications in central sensitization is largely unexplored. Our results reveal that SIRT3 carbonylation contributes to spinal MnSOD inactivation during carrageenan-induced thermal hyperalgesia in rats. Moreover, inhibiting ROS with natural and synthetic antioxidants, prevented SIRT3 carbonylation, restored the enzymatic activity of MnSOD, and blocked the development of thermal hyperalgesia. These results suggest that therapeutic strategies aimed at inhibiting post-translational modifications of SIRT3 may provide beneficial outcomes in pain states where ROS have been documented to play an important role in the development of central sensitization.
2020
2,4 dinitrophenylhydrazine (DNPH) (pubchem CID: 3772977); 4-hydroxynonenal (4-HNE) (pubchem CID: 5283344); carrageenan (pubchem CID: 91972149); inflammatory hyperalgesia; mitochondrial dysfunction; mn (III) tetrakis (4-benzoic) porfirin (MnTBAP) (pubchem CID: 16760566); natural antioxidants; oxidative stress; resveratrol (pubchem CID: 445154); SIRT3; analgesics; animals; antioxidants; cell line; tumor; humans; hyperalgesia; male; metalloporphyrins; oxidative stress; pain threshold; protein carbonylation; rats, sprague-dawley; reactive oxygen species; resveratrol; signal transduction; sirtuins; spinal cord; superoxide dismutase
01 Pubblicazione su rivista::01a Articolo in rivista
Antioxidant modulation of sirtuin 3 during acute inflammatory pain: The ROS control / Ilari, S.; Giancotti, L. A.; Lauro, F.; Dagostino, C.; Gliozzi, M.; Malafoglia, V.; Sansone, L.; Palma, E.; Tafani, M.; Russo, M. A.; Tomino, C.; Fini, M.; Salvemini, D.; Mollace, V.; Muscoli, C.. - In: PHARMACOLOGICAL RESEARCH. - ISSN 1043-6618. - 157:(2020), pp. 1-11. [10.1016/j.phrs.2020.104851]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1611323
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