Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling

Nitric oxide (NO) and superoxide (O(2) (−)) are important cardiac signaling molecules that regulate myocyte contraction. For appropriate regulation, NO and O(2) (.−) must exist at defined levels. Unfortunately, the NO and O(2) (.−) levels are altered in many cardiomyopathies (heart failure, ischemia...

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Autores principales: Traynham, Christopher J., Roof, Steve R., Wang, Honglan, Prosak, Robert A., Tang, Lifei, Viatchenko-Karpinski, Serge, Ho, Hsiang-Ting, Racoma, Ira O., Catalano, Dominic J., Huang, Xin, Han, Yongbin, Kim, Shang-U, Gyorke, Sandor, Billman, George E., Villamena, Frederick A., Ziolo, Mark T.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3531448/
https://www.ncbi.nlm.nih.gov/pubmed/23300588
http://dx.doi.org/10.1371/journal.pone.0052005
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author Traynham, Christopher J.
Roof, Steve R.
Wang, Honglan
Prosak, Robert A.
Tang, Lifei
Viatchenko-Karpinski, Serge
Ho, Hsiang-Ting
Racoma, Ira O.
Catalano, Dominic J.
Huang, Xin
Han, Yongbin
Kim, Shang-U
Gyorke, Sandor
Billman, George E.
Villamena, Frederick A.
Ziolo, Mark T.
author_facet Traynham, Christopher J.
Roof, Steve R.
Wang, Honglan
Prosak, Robert A.
Tang, Lifei
Viatchenko-Karpinski, Serge
Ho, Hsiang-Ting
Racoma, Ira O.
Catalano, Dominic J.
Huang, Xin
Han, Yongbin
Kim, Shang-U
Gyorke, Sandor
Billman, George E.
Villamena, Frederick A.
Ziolo, Mark T.
author_sort Traynham, Christopher J.
collection PubMed
description Nitric oxide (NO) and superoxide (O(2) (−)) are important cardiac signaling molecules that regulate myocyte contraction. For appropriate regulation, NO and O(2) (.−) must exist at defined levels. Unfortunately, the NO and O(2) (.−) levels are altered in many cardiomyopathies (heart failure, ischemia, hypertrophy, etc.) leading to contractile dysfunction and adverse remodeling. Hence, rescuing the nitroso-redox levels is a potential therapeutic strategy. Nitrone spin traps have been shown to scavenge O(2) (.−) while releasing NO as a reaction byproduct; and we synthesized a novel, cell permeable nitrone, 2–2–3,4-dihydro-2H-pyrrole 1-oxide (EMEPO). We hypothesized that EMEPO would improve contractile function in myocytes with altered nitroso-redox levels. Ventricular myocytes were isolated from wildtype (C57Bl/6) and NOS1 knockout (NOS1(−/−)) mice, a known model of NO/O(2) (.−) imbalance, and incubated with EMEPO. EMEPO significantly reduced O(2) (.−) (lucigenin-enhanced chemiluminescence) and elevated NO (DAF-FM diacetate) levels in NOS1(−/−) myocytes. Furthermore, EMEPO increased NOS1(−/−) myocyte basal contraction (Ca(2+) transients, Fluo-4AM; shortening, video-edge detection), the force-frequency response and the contractile response to β-adrenergic stimulation. EMEPO had no effect in wildtype myocytes. EMEPO also increased ryanodine receptor activity (sarcoplasmic reticulum Ca(2+) leak/load relationship) and phospholamban Serine16 phosphorylation (Western blot). We also repeated our functional experiments in a canine post-myocardial infarction model and observed similar results to those seen in NOS1(−/−) myocytes. In conclusion, EMEPO improved contractile function in myocytes experiencing an imbalance of their nitroso-redox levels. The concurrent restoration of NO and O(2) (.−) levels may have therapeutic potential in the treatment of various cardiomyopathies.
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spelling pubmed-35314482013-01-08 Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling Traynham, Christopher J. Roof, Steve R. Wang, Honglan Prosak, Robert A. Tang, Lifei Viatchenko-Karpinski, Serge Ho, Hsiang-Ting Racoma, Ira O. Catalano, Dominic J. Huang, Xin Han, Yongbin Kim, Shang-U Gyorke, Sandor Billman, George E. Villamena, Frederick A. Ziolo, Mark T. PLoS One Research Article Nitric oxide (NO) and superoxide (O(2) (−)) are important cardiac signaling molecules that regulate myocyte contraction. For appropriate regulation, NO and O(2) (.−) must exist at defined levels. Unfortunately, the NO and O(2) (.−) levels are altered in many cardiomyopathies (heart failure, ischemia, hypertrophy, etc.) leading to contractile dysfunction and adverse remodeling. Hence, rescuing the nitroso-redox levels is a potential therapeutic strategy. Nitrone spin traps have been shown to scavenge O(2) (.−) while releasing NO as a reaction byproduct; and we synthesized a novel, cell permeable nitrone, 2–2–3,4-dihydro-2H-pyrrole 1-oxide (EMEPO). We hypothesized that EMEPO would improve contractile function in myocytes with altered nitroso-redox levels. Ventricular myocytes were isolated from wildtype (C57Bl/6) and NOS1 knockout (NOS1(−/−)) mice, a known model of NO/O(2) (.−) imbalance, and incubated with EMEPO. EMEPO significantly reduced O(2) (.−) (lucigenin-enhanced chemiluminescence) and elevated NO (DAF-FM diacetate) levels in NOS1(−/−) myocytes. Furthermore, EMEPO increased NOS1(−/−) myocyte basal contraction (Ca(2+) transients, Fluo-4AM; shortening, video-edge detection), the force-frequency response and the contractile response to β-adrenergic stimulation. EMEPO had no effect in wildtype myocytes. EMEPO also increased ryanodine receptor activity (sarcoplasmic reticulum Ca(2+) leak/load relationship) and phospholamban Serine16 phosphorylation (Western blot). We also repeated our functional experiments in a canine post-myocardial infarction model and observed similar results to those seen in NOS1(−/−) myocytes. In conclusion, EMEPO improved contractile function in myocytes experiencing an imbalance of their nitroso-redox levels. The concurrent restoration of NO and O(2) (.−) levels may have therapeutic potential in the treatment of various cardiomyopathies. Public Library of Science 2012-12-27 /pmc/articles/PMC3531448/ /pubmed/23300588 http://dx.doi.org/10.1371/journal.pone.0052005 Text en © 2012 Traynham et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Traynham, Christopher J.
Roof, Steve R.
Wang, Honglan
Prosak, Robert A.
Tang, Lifei
Viatchenko-Karpinski, Serge
Ho, Hsiang-Ting
Racoma, Ira O.
Catalano, Dominic J.
Huang, Xin
Han, Yongbin
Kim, Shang-U
Gyorke, Sandor
Billman, George E.
Villamena, Frederick A.
Ziolo, Mark T.
Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling
title Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling
title_full Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling
title_fullStr Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling
title_full_unstemmed Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling
title_short Diesterified Nitrone Rescues Nitroso-Redox Levels and Increases Myocyte Contraction Via Increased SR Ca(2+) Handling
title_sort diesterified nitrone rescues nitroso-redox levels and increases myocyte contraction via increased sr ca(2+) handling
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3531448/
https://www.ncbi.nlm.nih.gov/pubmed/23300588
http://dx.doi.org/10.1371/journal.pone.0052005
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