Redox-Active Therapeutics, Softcover reprint of the original 1st ed. 2016
Oxidative Stress in Applied Basic Research and Clinical Practice Series

Language: English

210.99 €

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Redox-Active Therapeutics
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210.99 €

In Print (Delivery period: 15 days).

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Redox-Active Therapeutics
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Support: Print on demand

This essential volume comprehensively discusses redox-active therapeutics, focusing particularly on their molecular design, mechanistic, pharmacological and medicinal aspects.  The first section of the book describes the basic aspects of the chemistry and biology of redox-active drugs and includes a brief overview of the redox-based pathways involved in cancer and the medical aspects of redox-active drugs, assuming little in the way of prior knowledge. Subsequent sections and chapters describe more specialized aspects of central nervous system injuries, neurodegenerative diseases, pain, radiation injury and radioprotection (such as of brain, lungs, head and neck and erectile function) and neglected diseases (e.g., leishmaniasis). It encompasses several major classes of redox-active experimental therapeutics, which include porphyrins, salens, nitrones, and most notably metal-containing (e.g., Mn, Fe, Cu, Zn, Sb) drugs as either single compounds or formulations with nanomaterials and quantum dots. Numerous illustrations, tables and figures enhance and complement the text; extensive references to relevant literature are also included.

 

Redox-Active Therapeutics is an invaluable addition to Springer?s Oxidative Stress in Applied Basic Research and Clinical Practice  series.  It is essential reading for researchers, clinicians and graduate students interested in understanding and exploring the Redoxome?the organism redox network?as an emerging frontier in drug design, redox biology and medicine.

Part 1. Pathophysiological Roles of Superoxide Dismutases (SOD).- Superoxide and the Superoxide Dismutases: An Introduction by Irwin Fridovich.- The Discovery of Superoxide Dismutase and Its Role in Redox Biology.- Manganese Superoxide Dismutase (MnSOD) and It's Importance in Mitochondrial Function and Cancer.- Regulation of the Cellular Redox Environment by Superoxide Dismutases, Catalase and Glutathione Peroxidases During Tumor Metastasis.- Superoxide Dismutase Family of Enzymes in Brain Neurogenesis and Radioprotection.- Metabolic Production of H2O2in Carcinogenesis and Cancer Treatment.- Part 2. Redox-Active Therapeutics – Design and Mechanisms of Action.- Mimicking SOD, Why and How: Bio-Inspired Manganese Complexes as SOD Mimics.- Mn Porphyrin-Based Redox-Active Therapeutics.- Cytochrome P450-like Biomimetic Oxidation Catalysts Based on Mn porphyrins as Redox Modulators.- Nitrones as Potent Anticancer Therapeutics.- Salen Manganese Complexes Mitigate Radiation Injury in Normal Tissues Through Modulation of Tissue Environment.- Molecular Basis for Anticancer and Antiparasite Activities of Copper-Based Drugs.- Small Signaling Molecules and CO-Releasing Molecules (CORMs) for the Modulation of the Cellular Redox Metabolism.- HNO/Thiol Biology as a Therapeutic Target.- Part 3. Redox-Active Therapeutics in Cancer.- Advances in Breast Cancer Therapy Using Nitric Oxide and Nitroxyl Donor Agents.- Mechanisms by Which Manganese Porphyrins Affect Signaling in Cancer Cells.- Targeted Therapy for Malignant Brain Tumors.- Redox Therapeutics in Breast Cancer: Role of SOD Mimics.- Anticancer Action of Mn porphyrins in Head and Neck Cancers.- Redox-based Therapeutic Strategies in the Treatment of Skin Cancers.- Role of Oxidative Stress in Erectile Dysfunction after Prostate Cancer Therapy.- Theranostic Nanoconjugates of Tetrapyrrolic Macrocycles and Their Applications in Photodynamic Therapy.- Part 4. Redox-Active Therapeutics in Other Diseases.- QuantumDots in Photodynamic Therapy.- Metalloporphyrins in CNS injuries.- The Contribution of Nitroxidative Stress to Pathophysiological Pain and Opioid Analgesic Failure.- Amyotrophic Lateral Sclerosis – Present Understanding of the Role of SOD.- Redox Regulation and Misfolding of SOD1: Therapeutic Strategies for Amyotrophic Lateral Sclerosis.- Redox-Based Therapeutics for Prevention, Mitigation, and Treatment of Lung Injury Secondary to Radiation Exposure.- Using Metalloporphyrins to PreserveβCell Mass and Inhibit Immune Responses in Diabetes.- Redox-Active Metal Complexes in Trypanosomatids.

INES BATINIC-HABERLE, PhD

Ines Batinic-Haberle is a Professor of Radiation Oncology at the Department of Radiation Oncology, Duke University School of Medicine. She received her B.Sc. in Food Chemistry, M.Sc. degree in Analytical Chemistry, and her Ph.D. degree in Bioinorganic Chemistry from the School of Pharmacy and Biochemistry, University of Zagreb, Croatia. She completed her postdoctoral education at the Department of Chemistry, Duke University. She then moved to the Department of Biochemistry at Duke University School of Medicine, where she was trained by Irwin Fridovich, the Father of the field of Free Radicals in Biology and Medicine. She spent 10 years in Fridovich’s Lab where she acquired the basis of her expertise in Oxidative Stress and Redox-Active Therapeutics and launched the design of powerful Mn porphyrin-based SOD mimics.  She established the structure-activity relationship for Mn porphyrin-based SOD mimics, which she subsequently extended to all classes of SOD mimics. She holds a number of compositional and methods of use patents on metalloporphyrins; her lead compounds are either already in or entering Clinical Trials in 2016. She authored more than 190 manuscripts, several book chapters, has served as Guest/Invited Editor and reviewer of various prestigious journals and granting agencies both nationally and internationally. For the last 6 years she has served as a Society for Redox Biology and Medicine (SFRBM) Officer and is a founding member of the Society of Porphyrins and Phthalocyanines. She was recently awarded the SFRBM Excellence in Mentoring Award. She has organized numerous Symposia nationally and internationally and gave lectures at numerous Universities in the USA and abroad. She has established numerous collaborations with research groups in USA and internationally and worked actively in advancing metalloporphyrins towards clinic.

JULIO S. REBOUCAS, PhD

Julio

Reviews the latest literature and developments in this area Explains redox activity in cells that is key to understanding processes like metastasis and mechanisms of actions for therapeutics Written by leaders in their fields Includes supplementary material: sn.pub/extras