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Roles and Functions of ROS and RNS in Cellular Physiology and Pathology
Neven Zarkovic
2020
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Our common knowledge on oxidative stress has evolved substantially over the years and has been mostly focused on the fundamental chemical reactions and the most relevant chemical species involved in the human pathophysiology of oxidative stress-associated diseases. Thus, reactive oxygen species and reactive nitrogen species (ROS and RNS) were identified as the key players initiating, mediating, and regulating the cellular and biochemical complexity of oxidative stress either as physiological (acting pro-hormetic) or as pathogenic (causing destructive vicious circle) process. The papers published in this particular Special Issue of the Cells demonstrate the impressive pathophysiological relevance of ROS and RNS in a range of contexts, including the relevance of second messengers of free radicals like 4-hydroxynonenal, allowing us to assume that even more detailed mechanisms of their positive and negative effects lie in wait, and should assist in better monitoring of the major modern diseases and the development of advanced integrative biomedicine treatments.
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Keywords
- 4-hydroxynonenal
- 4-hydroxynonenal (4-HNE)
- acrolein
- antimicrobial
- antioxidant
- Antioxidants
- aorta
- bEnd.3
- bEnd5
- blood–brain barrier
- Ca2+
- Ca2+, ROS
- Calcium
- Cancer
- Cancer cells
- cancer regression
- cannabidiol
- Cell signaling
- cyclopurines
- DNA and RNA polymerases
- DNA Damage
- endothelial cells
- free radicals
- fusion/fission
- glucose deprivation
- glutamine deprivation
- Glutathione
- Granulocytes
- Growth
- growth control
- heme-oxygenase-1
- Histamine
- human neuroblastoma SH-SY5Y cells
- hydroxyapatite-based biomaterials
- IMR-90
- Inflammation
- intermittent hypoxia
- Intracellular signaling
- keratinocytes
- LC-MS/MS
- Lipid Peroxidation
- Macrophages
- MFN2
- Mitochondria
- NADPH-oxidase
- neuronal cell death
- NF?B
- NQO1 transcript variants
- Nrf2
- NRF2-NQO1 axis
- nuclear factor erythroid 2–related factor 2
- nucleotide excision repair
- Optical Coherence Tomography
- osteoblast growth
- oxidative burst
- oxidative homeostasis
- oxidative metabolism of the cells
- Oxidative Stress
- pathophysiology of oxidative stress
- plaque vulnerability
- proliferation
- Reactive Oxygen Species
- reactive oxygen species (ROS)
- redox balance
- relaxation
- ROS
- rs1800566
- Toll-Like Receptors
- Toxicity
- TP53 mutation
- TRPM2 channel
- UV radiation
- VAS2870
- viability
- Vitamins
- von Willebrand factor
- xeroderma pigmentosum