Reductants, free-radical-inhibiting

Table 5. Free-Radical-Inhibiting Antioxidants or Reductants Useful in Cosmetics ...

The application of flavonoids for the treatment of various diseases associated with free radical overproduction is considered in Chapter 29. However, it seems useful to discuss here some studies describing the activity of flavonoids under certain pathophysiological conditions. Oral pretreatment with rutin of rats, in which gastric lesions were induced by the administration of 100% ethanol, resulted in the reduction of the area of gastric lesions [157]. Rutin was found to be an effective inhibitor of TBAR products in the gastric mucosa induced by 50%i ethanol [158]. Rutin and quercetin were active in the reduction of azoxymethanol-induced colonic neoplasma and focal area of dysplasia in the mice [159], Chemopreventive effects of quercetin and rutin were also shown in normal and azoxymethane-treated mouse colon [160]. Flavonoids exhibited radioprotective effect on 7-ray irradiated mice [161], which was correlated with their antioxidative activity. Dietary flavones and flavonols protected against the toxicity of the environmental contaminant dioxin [162], Rutin inhibited ovariectomy-induced osteopenia in rats [163],... 

In 1998, Schlotte et al. [259] showed that uric acid inhibited LDL oxidation. However, subsequent studies showed that in the case of copper-initiated LDL oxidation uric acid behaves itself as prooxidant [260,261]. It has been suggested that in this case uric acid enhances LDL oxidation by the reduction of cupric into cuprous ions and that the prooxidant effect of uric acid may be prevented by ascorbate. On the other hand, urate radicals formed during the interaction of uric acid with peroxyl radicals are able to react with other compounds, for example, flavonoids [262], and by that participate in the propagation of free radical damaging reactions. In addition to the inhibition of oxygen radical-mediated processes, uric acid is an effective scavenger of peroxynitrite [263]. 

The detailed mechanism for these Co AlPO-18- and Mn ALPO-18-cata-lyzed oxidations are unknown, but as previously pointed out vide supra) and by analogy to other metal-mediated oxidations a free-radical chain auto-oxidation (a type IIaRH reaction) is anticipated [63], This speculation is supported by several experimental observations that include (1) an induction period for product formation in the oxidation of n-hexane in CoAlPO-36, (2) the reduction of the induction period by the addition of free-radical initiators, (3) the ability to inhibit the reaction with addition of free-radical scavengers, and (4) the direct observation of cyclohexyl hydroperoxide in the oxidation of cyclohexane [62],... 

Sentjurc M, Mason RP. 1992. Inhibition of radical adduct reduction and reoxidation of the corresponding hydroxylamines in in wVospin trapping of carbon tetrachloride-derived radicals. Free Radical Biology Medicine 13 151-160. 

Iron(n) is known to decompose hydrogen and dialkyl peroxides to free radicals by reductive cleavage of the 0—0 bond and early investigations established the parasite s sensitivity to these species. When treated with radiolabelled C-artemisinin, the hemin-hemozoin fraction of the lysed malaria-infected erythrocytes was shown to contain a radiolabel, though the mechanism of incorporation is not clear. Meshnick and coworkers demonstrated that uninfected cells did not contain radiolabelled proteins whereas six radiolabelled proteins were isolated from cells infected with the Plasmodium falciparum (P. falciparum) strain of the parasite. It was suspected that one of the alkylated proteins was the Histidine Rich Protein (HRP) that was known to bind multiple heme monomers and therefore thought to be instrumental to the parasite s detoxification process. Moreover, iron chelators were found to inhibit the lethal effects of peroxides on the parasite. ... 

Boron also appears to be involved in redox metabolism in cell membranes. Boron deficiency was shown to inhibit membrane H -ATPase isolated from plant roots, and H -ATPase-associated proton secretion is decreased in boron-deficient cell cultures [71]. Other studies show an effect of boron on membrane electron transport reactions and the stimulation of plasma reduced nicotinamide adenine dinucleotide (NADH) oxidase upon addition of boron to cell cultures [72, 73]. NADH oxidase in plasma membrane is believed to play a role in the reduction of ascorbate free radical to ascorbate [74]. One theory proposes that, by stimulating NADH oxidase to keep ascorbate reduced at the cell wall-membrane interface, the presence of boron is important in... 

Organic films may have some or all of the following effects (1) reduction of the rate of evaporation of water from the droplets, (2) inhibition of the transport of stable molecules and of highly reactive free radicals such as OH and HOz from the gas phase into the droplet, and (3) reduction of the efficiency with which the particles are scavenged by larger cloud and rain droplets (Gill et al., 1983). Thus, the presence of organic films may increase the lifetime of such particles in the atmosphere compared to those expected if the films were not present (Toossi and Novakov, 1985). 

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