Modulation of Oxidative Stress in Heart Disease
Editat de Sajal Chakraborti, Naranjan S. Dhalla, Madhu Dikshit, Nirmal K. Gangulyen Limba Engleză Hardback – 13 feb 2020
The book not only covers ROS-induced response in heart disease at the cellular level, but also demonstrates that an imbalance of redox states has its roots in our genes, and explains the ways gene expression is regulated. In turn, it reviews potential sources of ROS, their pathological effects on the heart, and potential sites for therapeutic interventions.
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Specificații
ISBN-13: 9789811389450
ISBN-10: 9811389454
Pagini: 780
Ilustrații: XIII, 686 p. 114 illus., 100 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 1.15 kg
Ediția:1st ed. 2019
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
ISBN-10: 9811389454
Pagini: 780
Ilustrații: XIII, 686 p. 114 illus., 100 illus. in color.
Dimensiuni: 155 x 235 mm
Greutate: 1.15 kg
Ediția:1st ed. 2019
Editura: Springer Nature Singapore
Colecția Springer
Locul publicării:Singapore, Singapore
Cuprins
A. Regulation of Oxidative Stress
6. Redox regulation in heart by ion channels
14. Oxidative Stress and the Aging Heart
1. Impact of genetic and epigenetic factors on the oxidative stress in cardiovascular
disease
2. Role of aging and metabolic disease in oxidative stress of heart
3. Role of monoamine oxidases in heart diseases
4. Role of miRNA in oxidative stress induced heart diseases
5. Modulation of Oxidative (stressed) Heart Disease by Uncoupling Proteins
7. Molecular regulators in ROS mediated cardiac diseases.
8. The inflammatory stress that follows preceded oxidative stresses in the pathogenesis
of heart diseases
9. Metabolic signatures of redox-dependent cardiovascular disease.
10. Role of heat shock proteins in oxidative stress induced heart diseases.
B. Pathophysiology of Oxidative Stress
11. Oxidative stress in metabolic syndrome : experimental model of biomarkers
12. Oxidative stress as a critical determinant of adult cardiac progenitor cell-fate
decisions
13. Role of oxidative stress in hyperhomocysteinemia-induced heart disease
15. Basic mechanisms of ischemia/reperfusion injury leading to cellular and tissue
damage
16. Oxidative stress in congenital heart defects.
17. Nitrosative stress and cardiogenesis: Cardiac remodeling perturbs embryonic
metabolome
18. Oxidative Stress and Mitochondrial Dysfunction in Heart Diseases
19. Role of oxidative stress, mitochondrial dysfunction and autophagy in cardiovascular
disease: Its pathogenesis and amelioration by different small natural molecules
20. Regulation of cardiac ion channels in stress related heart diseases
21.In silico perspectives of the mechanism of oxidative stress during the onset of heart
disease.
22.Biomarkers of oxidative stress and endothelial dysfunction in the elderly: oxidized
LDL versus LDL oxidizability
C. Prevention & therapeutics
23. Restoring nitroso-redox balance as a therapeutic for heart disease
24. Oxidative stress role in cardiovascular prevention and disease
25. Mitochondrial dynamics and mitophagy in heart: role in disease and interventional
opportunities
26. Role of exercise in prevention and treatment of heart diseases: focus on redox balance
27. Mitochondrial biology and its therapeutic use in cardiovascular disease
28. Oxidative stress-driven cardiotoxicity of cancer drugs.
29. Modifying redox signaling to enhance success of regenerative therapy in the heart.
Notă biografică
Dr Sajal Chakraborti is a Professor of Biochemistry at the University of Kalyani, West Bengal, India. He completed his PhD at Calcutta University, Kolkata, India and his DSc at the University of Kalyani. He also pursued postdoctoral research at Johns Hopkins University, Baltimore; University of Utah, Salt Lake City; and New York Medical College, New York as a Fulbright Fellow. He visited the University of Florida, Gainesville, Florida, where he conducted research on f beta-adrenergic receptor activation in heart disease. His research mainly deals with the role of vasoactive agents in regulating vascular tone under oxidant and calcium signaling phenomena. He has been engaged in biochemistry teaching and research for the past 40 years (email: saj_chakra@rediffmail.com).
Dr Naranjan S Dhalla is a Distinguished Professor at the University of Manitoba, Winnipeg, Canada. His expertise includes the subcellular and molecular basis of heart function in health and disease. He has been engaged in multidisciplinary cardiology research and education for over 50 years. He is currently the Editor-in-chief of Molecular and Cellular Biochemistry (Springer) (email: NSDhalla@sbrc.ca).
Dr Madhu Dixit is a National Chair Fellow of the Translational Health Science and Technology Institute, Faridabad, Haryana, India. She has contributed to the general area of biochemical pharmacology with a special interest in cardiovascular pharmacology and redox biology. Dr Dixit has been engaged in research, especially on drug discovery and development, for over 40 years (email: rmadhudikshit@gmail.com).
Dr Nirmal K Ganguly, a distinguished biotechnologist and former Director General of the Indian Council of Medical Research (ICMR), is associated with Global Health Strategies, New Delhi, India. One important aspect of his research is the understanding of occupational, environmental and nutritional aspects of heart disease. In 2008 he was presented with the Padma Bhushan Award in the field of “Medicine” by the President of India (email: ganguly1nk@gmail.com).
Dr Naranjan S Dhalla is a Distinguished Professor at the University of Manitoba, Winnipeg, Canada. His expertise includes the subcellular and molecular basis of heart function in health and disease. He has been engaged in multidisciplinary cardiology research and education for over 50 years. He is currently the Editor-in-chief of Molecular and Cellular Biochemistry (Springer) (email: NSDhalla@sbrc.ca).
Dr Madhu Dixit is a National Chair Fellow of the Translational Health Science and Technology Institute, Faridabad, Haryana, India. She has contributed to the general area of biochemical pharmacology with a special interest in cardiovascular pharmacology and redox biology. Dr Dixit has been engaged in research, especially on drug discovery and development, for over 40 years (email: rmadhudikshit@gmail.com).
Dr Nirmal K Ganguly, a distinguished biotechnologist and former Director General of the Indian Council of Medical Research (ICMR), is associated with Global Health Strategies, New Delhi, India. One important aspect of his research is the understanding of occupational, environmental and nutritional aspects of heart disease. In 2008 he was presented with the Padma Bhushan Award in the field of “Medicine” by the President of India (email: ganguly1nk@gmail.com).
Textul de pe ultima copertă
This book highlights the multifaceted roles of Reactive Oxygen Species (ROS) in modulating normal cellular and molecular mechanisms during the development of different types of heart disease. Each chapter in the book deals with the role that altered redox homeostasis plays in the pathophysiology of heart disease. In addition, the book explains how reactive oxidant species interact with their targets and provides novel strategies for attenuating oxidative stress-induced types of heart disease.
The book not only covers ROS-induced response in heart disease at the cellular level, but also demonstrates that an imbalance of redox states has its roots in our genes, and explains the ways gene expression is regulated. In turn, it reviews potential sources of ROS, their pathological effects on the heart, and potential sites for therapeutic interventions.
The book not only covers ROS-induced response in heart disease at the cellular level, but also demonstrates that an imbalance of redox states has its roots in our genes, and explains the ways gene expression is regulated. In turn, it reviews potential sources of ROS, their pathological effects on the heart, and potential sites for therapeutic interventions.
Caracteristici
Uses multidisciplinary approach to demonstrate dysregulation of cellular redox status in the manifestation of different types of heart diseases
Describes the second messenger properties of ROS to activate signalling pathways involving different types of kinases, phosphatases, transcription factors and ion channels
Discusses different targets for drug development in cardiovascular diseases
Describes the second messenger properties of ROS to activate signalling pathways involving different types of kinases, phosphatases, transcription factors and ion channels
Discusses different targets for drug development in cardiovascular diseases