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Pathogenesis of Heart and Liver Diseases in Acquired and Genetic Iron-overload Disorders ... PDF

265 Pages·2016·22.56 MB·English
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Pathogenesis of Heart and Liver Diseases in Acquired and Genetic Iron-overload Disorders Resveratrol as potential therapy by Subhash Kumar Das A thesis submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy Experimental Medicine Department of Medicine University of Alberta © Subhash Kumar Das, 2016 Abstract Abnormal iron metabolism leads to cardiac and hepatic iron-overload disorders in an epidemic proportion. Irregular iron absorption results in iron deposition in different organs of the body including heart and liver. Iron-overload heart and liver diseases are commonly observed in patients with genetic hemochromatosis and secondary iron- overload, which are a common cause of end organ failure and mortality worldwide basis. An excess amount of iron associated with iron induced oxidative stress that leads to iron-overload cardiomyopathy and liver dysfunction respectively. We developed murine models of iron-overload with cardiomyopathy and liver disease to understand new insights into the pathogenesis and novel therapeutic effects of resveratrol. Cardiac and hepatic iron-overload pathogenesis showed dose-dependent iron- overload, oxidative stress, lipid peroxidation and fibrosis; however reduction in SERCA2a protein with defective calcium cycling without any inflammatory response is noticed in iron-overload hearts, which are key factors for the development of diastolic and systolic dysfunction. In contrast, hepatomegaly, hepatic inflammation, hepatic cell death and hepatic steatosis are well noticed in hepatic iron-overload. Resveratrol therapy improved cardiac function by decreasing iron-induced oxidative stress, myocardial lipid peroxidation, cardiac fibrosis, and hypertrophy; normalize calcium cycling defects by improving SERCA2a. In contrast resveratrol, therapy also improved liver function by reducing hepatic oxidative stress, lipid peroxidation, hepatic inflammation, hepatic cell death and hepatic steatosis. Consistent with the role of iron- induced myocardial oxidative stress in the development of heart disease, iron-overload female mice showed normal cardiac function with better survival rate without iron ii induced oxidative stress, highlighting the antioxidant properties of the female sex hormone estrogen. These results indicate that iron-induced oxidative stress is the key driver in the development of heart and liver diseases. There is no effective therapy available to prevent the global clinical burden of iron-overload, however, the mainstay therapies for iron-overload are phlebotomy and chelation therapy and these therapies have several limitations. Therefore, given the high degree of iron induced oxidative damage, we proposed that the pleiotropic effects of resveratrol represent a potential therapy to treat heart and liver diseases in iron-overloaded conditions. iii Preface: Non-failing human hearts were collected as part of the Human Organ Procurement and Exchange (HOPE) program for research at the Mazankowski Alberta Heart Institute. Human cardiomyocytes were used to improve the translational impact of our research. All experiments were performed in accordance with the institutional guidelines and were approved by Institutional Ethics Committee. Informed consent was obtained from all study subjects. The research projects in the current thesis are mainly performed in Dr. Gavin Oudit lab. iv This thesis is dedicated To my beloved parents for their endless love, support and encouragement, who always reminded me as follow……. “Karmanye vadhikaraste Ma Phaleshu Kadachana,” “Ma Karmaphalaheturbhurma Te Sangostvakarmani” “Keep on performing your duties without expecting any reward in return. You get something or you don’t get anything, you should not worry about it. You should lead a selfless life” (Verses from Bhagwat Gita) v ACKNOWLEDGEMENTS I would like to thank my supervisor Dr. Gavin Y. Oudit for the support that he has provided throughout my Ph.D. graduate studies. Without his intellectual guidance, the content of this thesis would not have been possible to accomplish. I would also like to thank the committee members, Dr. Jason R.B. Dyck and Dr. Michael Sean McMurtry, for their guidance, advice, invaluable suggestions and constant support throughout the course of my Ph.D. program. I sincerely would like to thank all of my collaborators, especially Dr. Jason R.B. Dyck and Dr. Zamaneh Kassiri for allowing me to work with various ongoing projects, independent from this thesis. I would also like to sincerely thank my other collaborators Dr. Nancy C. Andrews and Dr. Roger J. Hajjar, for kindly providing us the hemojuvelin knock-out mice and adenoviral SERCA2a, respectively. My sincere gratitude is given to all my present and past lab members, for their continued peer support and friendship, a wonderful experience in life during my time in the lab. This research would not have been possible without the financial assistance of Alberta Innovative Health solutions (AIHS) studentship and Alberta HEART STEADI-HF studentship as well as Heart and Stroke grant from Dr. Oudit. Last but not least, I would like to thank my wife Sushreeta Sai for her continued and unrelenting support. I would also like to thank my mother Susheela Das and my father Bhaskar Das for letting me pursue my ambition. vi CONTENTS Chapter 1: Literature Review……………………………………………………...1-46 1.1 General Introduction 1.2 Iron metabolism 1.2.1 Cellular iron metabolism 1.2.2 Systemic iron metabolism 1.3 Pathological conditions associated with iron-overload 1.3.1 Primary hemochromatosis 1.3.2 Secondary Iron-overload 1.4 Iron-overload cardiomyopathy 1.4.1 Clinical description of iron-overload cardiomyopathy 1.4.2 Pathophysiology of iron-overload cardiomyopathy 1.4.3 Role of gender in the pathogenesis of iron-overload cardiomyopathy 1.5 Hepatic Iron-overload disease 1.6 Iron induced oxidative stress 1.7 Current therapies vii 1.8 Proposed therapies 1.8.1 Antioxidant therapy 1.8.2 Resveratrol in clinical trials 1.8.3 Amlodipine: L-Type calcium channel blocker 1.9 Hypothesis Chapter 2: Overview of Research Protocol……………………………………...47-56 2.1 Iron-overload animal models 2.2 Experimental Animal Protocols 2.3 Sample size, Power of study and choice of statistical method Chapter 3: Iron-overload injury and cardiomyopathy in acquired and genetic models is attenuated by resveratrol therapy………………………………………………57-106 3.1 Abstract 3.2 Introduction 3.3 Materials and Methods 3.4 Results 3.5 Discussion 3.6 Conclusion viii Chapter 4: Iron-overload cardiomyopathy in aged Juvenile hemochromatosis genetic murine model and prevented by resveratrol…………………………107-131 4.1 Abstract 4.2 Introduction 4.3 Materials and Methods 4.4 Results 4.5 Discussion 4.6 Conclusion Chapter 5: Resveratrol mediates therapeutic hepatic effects in acquired and genetic murine models of iron-overload………………………………………132-157 5.1 Abstract 5.2 Introduction 5.3 Materials and Methods 5.4 Results 5.5 Discussion 5.6 Conclusion ix Chapter 6: Females are protected from iron-overload cardiomyopathy independent of iron metabolism: key role of oxidative stress……………….158-189 6.1 Abstract 6.2 Introduction 6.3 Materials and Methods 6.4 Results 6.5 Discussion 6.6 Conclusion Chapter 7: Discussion and future directions…………………………………190-203 7.1 Discussion 7.2 Future directions References…………………………………………………………………….204-241 x

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and also called as hereditary hemochromatosis.44, 45 It is mostly found in Celtic descents (UK, Ireland Transthoracic echocardiography was performed on early, chronic and advanced British journal of pharmacology. 2003
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