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Physiological and Pathological Role of ROS: Benefits and Limitations of Antioxidant Treatment
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ISBN: 3039362828 3039362836 Year: 2020 Publisher: MDPI - Multidisciplinary Digital Publishing Institute

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Book
Physiological and Pathological Role of ROS: Benefits and Limitations of Antioxidant Treatment
Authors: --- ---
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

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Abstract

ROS were long considered one of the key players in tissue injury. Indeed, overproduction of ROS results in oxidative stress, a process leading to the development of many pathological conditions. For the treatment of these conditions, the use of antioxidants was proposed. Over time, it was shown that ROS at low concentrations act as signaling molecules, leading to the regulation of physiological functions. Moreover, several interventions that increase ROS generation activate stress-adaptive responses that extend the lifespan. It was also shown that excessive use of antioxidants can counter the beneficial effects of ROS. Currently, much progress has been made in understanding the role of ROS in human diseases and aging, as well as in the regulation of physiological functions, and in identifying the signaling pathways involved in ROS. However, much remains to be understood about the mutual interactions among signaling pathways underlying organisms’ adaptive responses, their modifications (which occur during aging), and some disease states. The aim of this Special Issue is to underline the effects of ROS production and antioxidant treatment in living organisms, focusing on their impact on health, disease, and aging.


Book
Physiological and Pathological Role of ROS: Benefits and Limitations of Antioxidant Treatment
Authors: --- ---
Year: 2020 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute

Loading...
Export citation

Choose an application

Bookmark

Abstract

ROS were long considered one of the key players in tissue injury. Indeed, overproduction of ROS results in oxidative stress, a process leading to the development of many pathological conditions. For the treatment of these conditions, the use of antioxidants was proposed. Over time, it was shown that ROS at low concentrations act as signaling molecules, leading to the regulation of physiological functions. Moreover, several interventions that increase ROS generation activate stress-adaptive responses that extend the lifespan. It was also shown that excessive use of antioxidants can counter the beneficial effects of ROS. Currently, much progress has been made in understanding the role of ROS in human diseases and aging, as well as in the regulation of physiological functions, and in identifying the signaling pathways involved in ROS. However, much remains to be understood about the mutual interactions among signaling pathways underlying organisms’ adaptive responses, their modifications (which occur during aging), and some disease states. The aim of this Special Issue is to underline the effects of ROS production and antioxidant treatment in living organisms, focusing on their impact on health, disease, and aging.

Keywords

Research & information: general --- Biology, life sciences --- CTCL --- apoptosis --- cell viability --- c-FLIP --- XIAP --- artemisinin --- SH-SY5Y cells --- hippocampal neurons --- H2O2 --- AMPK pathway --- atherosclerosis --- sphingomyelin synthase 2 --- endothelial dysfunction --- endoplasmic reticulum stress --- β-catenin --- insulin resistance --- cancer --- cardiovascular disease --- neurodegenerative disorders --- exercise --- mitochondria --- oxidative stress --- PGC-1 --- Nrf2 --- UCPs --- ROS --- light --- DNA damage --- evolution --- D-box --- cavefish --- Spalax --- trimethylamine N-oxide --- cardiomyocytes --- cardiotoxicity --- mitochondrial membrane potential --- CORM-2 --- NADPH oxidase --- AP-1 --- HO-1 --- Renal cell carcinoma (RCC) --- reactive oxygen species (ROS) --- glutathione (GSH) metabolism --- cancer therapy --- clear cell RCC --- papillary RCC --- chromophobe RCC --- sarcopenia --- reactive oxygen species --- redox signaling --- antioxidant supplementation --- protein aggregation --- redox --- proteinopathy --- peroxiredoxins --- tumorigenesis --- ROS scavengers --- CTCL --- apoptosis --- cell viability --- c-FLIP --- XIAP --- artemisinin --- SH-SY5Y cells --- hippocampal neurons --- H2O2 --- AMPK pathway --- atherosclerosis --- sphingomyelin synthase 2 --- endothelial dysfunction --- endoplasmic reticulum stress --- β-catenin --- insulin resistance --- cancer --- cardiovascular disease --- neurodegenerative disorders --- exercise --- mitochondria --- oxidative stress --- PGC-1 --- Nrf2 --- UCPs --- ROS --- light --- DNA damage --- evolution --- D-box --- cavefish --- Spalax --- trimethylamine N-oxide --- cardiomyocytes --- cardiotoxicity --- mitochondrial membrane potential --- CORM-2 --- NADPH oxidase --- AP-1 --- HO-1 --- Renal cell carcinoma (RCC) --- reactive oxygen species (ROS) --- glutathione (GSH) metabolism --- cancer therapy --- clear cell RCC --- papillary RCC --- chromophobe RCC --- sarcopenia --- reactive oxygen species --- redox signaling --- antioxidant supplementation --- protein aggregation --- redox --- proteinopathy --- peroxiredoxins --- tumorigenesis --- ROS scavengers

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