Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome

Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome

Summary: Previous studies have shown that patients with Takotsubo syndrome (TS) have supranormal nitric oxide signaling, and post-mortem studies of TS heart samples revealed nitrosative stress. Therefore, we first showed in a female rat model that isoproterenol induces TS-like echocardiographic chan...

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Main Authors: Sven Y. Surikow, BHlthSc (Hons), Thanh H. Nguyen, MD, MMedSci, PhD, Irene Stafford, BSc, Matthew Chapman, BSc, MClinSci, DMU, CEPIA, Sujith Chacko, MBBS, Kuljit Singh, MBBS, PhD, Giovanni Licari, BSc, PhD, Betty Raman, MBBS, Darren J. Kelly, PhD, Yuan Zhang, MBBS, PhD, Mark T. Waddingham, BSc (Hons), PhD, Doan T. Ngo, BPharm, PhD, Alexander P. Bate, Su Jen Chua, MBBS, Michael P. Frenneaux, MD, John D. Horowitz, MBBS, BMedSci(Hons), PhD
Format: Article
Language:English
Published: Elsevier 2018-04-01
Series:JACC: Basic to Translational Science
Online Access:http://www.sciencedirect.com/science/article/pii/S2452302X17302644
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spelling doaj-556da539c605443a84ef2c871993332e2020-11-24T20:41:20ZengElsevierJACC: Basic to Translational Science2452-302X2018-04-0132213226Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo SyndromeSven Y. Surikow, BHlthSc (Hons)0Thanh H. Nguyen, MD, MMedSci, PhD1Irene Stafford, BSc2Matthew Chapman, BSc, MClinSci, DMU, CEPIA3Sujith Chacko, MBBS4Kuljit Singh, MBBS, PhD5Giovanni Licari, BSc, PhD6Betty Raman, MBBS7Darren J. Kelly, PhD8Yuan Zhang, MBBS, PhD9Mark T. Waddingham, BSc (Hons), PhD10Doan T. Ngo, BPharm, PhD11Alexander P. Bate12Su Jen Chua, MBBS13Michael P. Frenneaux, MD14John D. Horowitz, MBBS, BMedSci(Hons), PhD15The Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, Australia; Basil Hetzel Institute, Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, Australia; Basil Hetzel Institute, Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, Australia; Basil Hetzel Institute, Adelaide, South Australia, AustraliaBasil Hetzel Institute, Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, Australia; Basil Hetzel Institute, Adelaide, South Australia, AustraliaDepartment of Medicine, St. Vincent's Hospital, University of Melbourne, Melbourne, AustraliaDepartment of Medicine, St. Vincent's Hospital, University of Melbourne, Melbourne, AustraliaDepartment of Medicine, St. Vincent's Hospital, University of Melbourne, Melbourne, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, AustraliaThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, AustraliaUniversity of East Anglia, Norfolk, United KingdomThe Queen Elizabeth Hospital, Department of Cardiology, University of Adelaide, South Australia, Australia; Basil Hetzel Institute, Adelaide, South Australia, Australia; Address for correspondence: Dr. John D. Horowitz, Cardiology Unit, The Queen Elizabeth Hospital, 28 Woodville Road, Woodville South, SA 5011, Australia.Summary: Previous studies have shown that patients with Takotsubo syndrome (TS) have supranormal nitric oxide signaling, and post-mortem studies of TS heart samples revealed nitrosative stress. Therefore, we first showed in a female rat model that isoproterenol induces TS-like echocardiographic changes, evidence of nitrosative stress, and consequent activation of the energy-depleting enzyme poly(ADP-ribose) polymerase-1. We subsequently showed that pre-treatment with an inhibitor of poly(ADP-ribose) polymerase-1 ameliorated contractile abnormalities. These findings thus add to previous reports of aberrant β-adrenoceptor signaling (coupled with nitric oxide synthase activation) to elucidate mechanisms of impaired cardiac function in TS and point to potential methods of treatment. Key Words: myocardial inflammation, oxidative stress, poly(ADP-ribose) polymerase-1, Takotsubo cardiomyopathyhttp://www.sciencedirect.com/science/article/pii/S2452302X17302644
collection DOAJ
language English
format Article
sources DOAJ
author Sven Y. Surikow, BHlthSc (Hons)
Thanh H. Nguyen, MD, MMedSci, PhD
Irene Stafford, BSc
Matthew Chapman, BSc, MClinSci, DMU, CEPIA
Sujith Chacko, MBBS
Kuljit Singh, MBBS, PhD
Giovanni Licari, BSc, PhD
Betty Raman, MBBS
Darren J. Kelly, PhD
Yuan Zhang, MBBS, PhD
Mark T. Waddingham, BSc (Hons), PhD
Doan T. Ngo, BPharm, PhD
Alexander P. Bate
Su Jen Chua, MBBS
Michael P. Frenneaux, MD
John D. Horowitz, MBBS, BMedSci(Hons), PhD
spellingShingle Sven Y. Surikow, BHlthSc (Hons)
Thanh H. Nguyen, MD, MMedSci, PhD
Irene Stafford, BSc
Matthew Chapman, BSc, MClinSci, DMU, CEPIA
Sujith Chacko, MBBS
Kuljit Singh, MBBS, PhD
Giovanni Licari, BSc, PhD
Betty Raman, MBBS
Darren J. Kelly, PhD
Yuan Zhang, MBBS, PhD
Mark T. Waddingham, BSc (Hons), PhD
Doan T. Ngo, BPharm, PhD
Alexander P. Bate
Su Jen Chua, MBBS
Michael P. Frenneaux, MD
John D. Horowitz, MBBS, BMedSci(Hons), PhD
Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome
JACC: Basic to Translational Science
author_facet Sven Y. Surikow, BHlthSc (Hons)
Thanh H. Nguyen, MD, MMedSci, PhD
Irene Stafford, BSc
Matthew Chapman, BSc, MClinSci, DMU, CEPIA
Sujith Chacko, MBBS
Kuljit Singh, MBBS, PhD
Giovanni Licari, BSc, PhD
Betty Raman, MBBS
Darren J. Kelly, PhD
Yuan Zhang, MBBS, PhD
Mark T. Waddingham, BSc (Hons), PhD
Doan T. Ngo, BPharm, PhD
Alexander P. Bate
Su Jen Chua, MBBS
Michael P. Frenneaux, MD
John D. Horowitz, MBBS, BMedSci(Hons), PhD
author_sort Sven Y. Surikow, BHlthSc (Hons)
title Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome
title_short Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome
title_full Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome
title_fullStr Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome
title_full_unstemmed Nitrosative Stress as a Modulator of Inflammatory Change in a Model of Takotsubo Syndrome
title_sort nitrosative stress as a modulator of inflammatory change in a model of takotsubo syndrome
publisher Elsevier
series JACC: Basic to Translational Science
issn 2452-302X
publishDate 2018-04-01
description Summary: Previous studies have shown that patients with Takotsubo syndrome (TS) have supranormal nitric oxide signaling, and post-mortem studies of TS heart samples revealed nitrosative stress. Therefore, we first showed in a female rat model that isoproterenol induces TS-like echocardiographic changes, evidence of nitrosative stress, and consequent activation of the energy-depleting enzyme poly(ADP-ribose) polymerase-1. We subsequently showed that pre-treatment with an inhibitor of poly(ADP-ribose) polymerase-1 ameliorated contractile abnormalities. These findings thus add to previous reports of aberrant β-adrenoceptor signaling (coupled with nitric oxide synthase activation) to elucidate mechanisms of impaired cardiac function in TS and point to potential methods of treatment. Key Words: myocardial inflammation, oxidative stress, poly(ADP-ribose) polymerase-1, Takotsubo cardiomyopathy
url http://www.sciencedirect.com/science/article/pii/S2452302X17302644
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