NDEA-treated samples exhibited allover higher oxidant/antioxidant

NDEA-treated samples exhibited allover higher oxidant/antioxidant status than control and NDEA+Q samples. Quercetin (NDEA+Q) succeeded in most cases to normalize the oxidant/antioxidant status of NDEA-treated samples. Moreover, histopathological Wnt tumor confirmation showed normal liver histology of the NDEA+Q samples. Our results are agreeable with Lijinsky [4] and Bogovski and Bogovski, [7] who reported that NDEA is known as precarcinogen capable of inducing tumors in different animal species and are suspected of being involved in some human tumors [7]. Confirming results reported that administration of NDEA to rats resulted in lipid peroxidation (represented

in higher MDA levels) and enhanced selleck chemical chemiluminescence in liver preneoplastic nodules, indicating the formation of activated oxygen species [27]. NDEA also produces 8-hydroxyguanine (8-OHG) [28], an indicator of oxidative damage to DNA (P 53 results) and the most abundant of more than 20 types of https://www.selleckchem.com/products/lcz696.html modifications produced under conditions of oxidative stress. This premutagenic DNA damage results in specific types of mutations and is likely to be involved in carcinogenesis. In contrast, Andrzejewski et al. [8] postulated that NDEA is an epigenetic

chemical compound. The antitumor effects of plant flavonoids have been reported to induce cell growth inhibition and apoptosis in a variety of cancer cells [9]. Quercetin, a ubiquitous bioactive flavonoid, Non-specific serine/threonine protein kinase can inhibit the proliferation of cancer cells [10, 11]. It has been shown that quercetin treatment caused cell cycle arrests such as G2/M arrest or G1 arrest in different cell types [10, 29]. Moreover, quercetin-mediated apoptosis may result from the induction of stress proteins, disruption of microtubules and mitochondrial, release of cytochrome

c, and activation of caspases [11, 30]. Granado-Serrano et al. [31] reported that quercetin may be a potential chemopreventive or therapeutic agent in hepatocarcinoma cells and further efforts to investigate these possibilities are needed. Specific P 53 gene PCR results may be contributed to the quercetin-mediated down regulation of mutant P 53 as reported by Avila et al. [32]. Contradictory results were reported by Chaumontet et al. [33] who reported the lack of tumor-promoting effects of the flavonoids. The oxidant/antioxidant status of liver samples illustrated that quercetin exerted its preventive effect through inhibition of lipid peroxidation to prevent oxidative DNA damage [28]. Consequently, the levels of GSH (a key player in reduction and detoxification processes) [17], GR (reduces GSSG to GSH which is an important cellular antioxidant) [18, 19] and GPX (whose main biological role is to protect the organism from oxidative damage) [18, 19] decreased significantly in NDEA+Q group.

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