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Pharmacological action of melatonin in shock, inflammation and ischemiarreperfusion injury

A vast amount of circumstantial evidence implicates oxygen-derived free radicals (especially, superoxide and hydroxyl radical) high-energy oxidants (such as peroxynitrite) as mediators of inflammation, shock and ischemia / reperfusion injury. The aim of this review is to describe recent developments in the field of oxidative stress research. The first part of the review focuses on the roles of reactive oxygen species in shock, inflammation and ischemia / reperfusion injury. The second part of the review described the pharmacological
action of melatonin in shock, ischemia reperfusion, and inflammation. The role of reactive oxygen species: Immunohistochemical and biochemical evidence demonstrate the production of reactive oxygen species in shock, inflammation and ischemia / reperfusion injury. Reactive oxygen species can initiate a wide range of toxic oxidative reactions. These include the initiation of lipid peroxidation, direct inhibition of mitochondrial respiratory chain enzymes, inactivation of glyceraldehyde-3phosphate dehydrogenase, inhibition of membrane sodium / potassium ATP-ase activity, inactivation of membrane sodium channels, and other oxidative modifications of proteins. All these toxicities are likely to play a role in the pathophysiology of shock, inflammation and ischemia and reperfusion. Treatment with melatonin has been shown to prevent in vivo the delayed vascular decompensation and the cellular energetic failure associated with shock, inflammation and ischemia / reperfusion injury. Reactive oxygen species e.g., superoxide, peroxynitrite, hydroxyl radical and
hydrogen peroxide are all potential reactants capable of initiating DNA single-strand breakage, with subsequent activation of the nuclear enzyme poly ADP-ribose synthetase PARS , leading to eventual severe energy depletion of the cells, and necrotic-type cell death. Recently, it has been demonstrated that melatonin inhibits the activation of poly ADP-ribose synthetase, and prevents the organ injury associated with shock, inflammation and ischemia and reperfusion.

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