1. Reactive Oxygen-Related Diseases: Therapeutic Targets and Emerging Clinical Indications
- Author
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Andreas Daiber, Nina Kaludercic, Ghassan J. Maghzal, Karl H. Krause, Antonio Cuadrado, Tamara Seredenina, Harald H.H.W. Schmidt, Fabio Di Lisa, Manuela G. López, Ana I. Casas, Roland Stocker, V Thao-Vi Dao, Pietro Ghezzi, Sonia Leach, Vincent Jaquet, Pharmacology and Personalised Medicine, RS: CARIM - R3 - Vascular biology, and RS: SHE - R1 - Research (OvO)
- Subjects
Xanthine Oxidase ,Physiology ,ROS formation ,Clinical Biochemistry ,Disease ,ddc:616.07 ,medicine.disease_cause ,Nitric Oxide ,Biochemistry ,Antioxidants ,medicine ,Animals ,Humans ,Molecular Biology ,Monoamine Oxidase ,General Environmental Science ,Peroxidase ,chemistry.chemical_classification ,Reactive oxygen species ,NADPH oxidase ,biology ,NADPH Oxidases ,Cell Biology ,Forum Review Articles ,Oxidative Stress ,chemistry ,biology.protein ,General Earth and Planetary Sciences ,Nitric Oxide Synthase ,Reactive Oxygen Species ,Neuroscience ,Oxidative stress - Abstract
SIGNIFICANCE\ud \ud Enhanced levels of reactive oxygen species (ROS) have been associated with different disease states. Most attempts to validate and exploit these associations by chronic antioxidant therapies have provided disappointing results. Hence, the clinical relevance of ROS is still largely unclear.\ud \ud RECENT ADVANCES\ud \ud We are now beginning to understand the reasons for these failures, which reside in the many important physiological roles of ROS in cell signaling. To exploit ROS therapeutically, it would be essential to define and treat the disease-relevant ROS at the right moment and leave physiological ROS formation intact. This breakthrough seems now within reach.\ud \ud CRITICAL ISSUES\ud \ud Rather than antioxidants, a new generation of protein targets for classical pharmacological agents includes ROS-forming or toxifying enzymes or proteins that are oxidatively damaged and can be functionally repaired.\ud \ud FUTURE DIRECTIONS\ud \ud Linking these target proteins in future to specific disease states and providing in each case proof of principle will be essential for translating the oxidative stress concept into the clinic. Antioxid. Redox Signal. 23, 1171-1185.
- Published
- 2015