A possible mechanism for combined arsenic and fluoride induced cellular and DNA damage in mice

Flora, Swaran J.S.; Mittal, Megha; Pachauri, Vidhu; Dwivedi, Nidhi

doi:10.1039/c1mt00118c

Cited by 61 publications

(30 citation statements)

References 62 publications

(69 reference statements)

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“…Some recent finding demonstrates that depletion of antioxidant components and higher mutagenic DNA breakages in arsenic-exposed human result in necrosis and carcinogenesis [2,3]. The liver, being the metabolic port of entry, is the major target of arsenic toxicity.…”

Section: Introductionmentioning

confidence: 99%

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H₂O₂Related in Vitro Oxidant Stress

Acharyya

Chattopadhyay

Maiti

2014

Journal of Environmental Science and Health, Part C

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Green tea (Camellia sinensis; CS) strongly reverses/prevents arsenic-induced apoptotic hepatic degeneration/micronecrosis and mutagenic DNA damage in in vitro oxidant stress model and in rat as shown by comet assay and histoarchitecture (HE and PAS staining) results. Earlier, we demonstrated a link between carcinogenesis and impaired antioxidant system-associated mutagenic DNA damage in arsenic-exposed human. In this study, arsenic-induced (0.6 ppm/100 g body weight/day for 28 days) impairment of cytosolic superoxide-dismutase (SOD1), catalase, xanthine-oxidase, thiol, and urate activities/levels led to increase in tissue levels of damaging malondialdehyde, conjugated dienes, serum necrotic-marker lactate-dehydrogenase, and metabolic inflammatory-marker c-reactive protein suggesting dysregulation at the transcriptional/signal-transduction level. These are decisively restrained by CS-extract (≥10 mg/ml aqueous) with a restoration of DNA/tissue structure. The structural/functional impairment of dialyzed and centrifugally concentrated (6-8 kd cutoff) hepatic SOD1 via its important Cys modifications by H2O2/arsenite redox-stress and that protection by CS/2-mercaptoethanol are shown in in vitro/in situ studies paralleling the present Swiss-Model-generated rSOD1 structural data. Here, arsenite(3+) incubation (≥10(-8) μM + 10 mM H2O2, 2 hr) is shown for the first time with this low-concentration to initiate breakage in rat hepatic-DNA in vitro whereas, arsenite/H2O2/UV-radiation does not affect DNA separately. Arsenic initiates Fe and Cu ion-associated free-radical reaction cascade in vivo. Here, 10 μM of Cu(2+)/Fe(3+)/As(3+) +H2O2-induced in vitro DNA fragmentation is prevented by CS (≥1 mg/ml), greater than the prevention of ascorbate or tocopherol or DMSO or their combination. Moreover, CS incubation for various time with differentially and already degraded DNA resulted from pre-incubation in 10 μM As(3+)-H2O2 system markedly recovers broken DNA. Present results decisively suggest for the first time that CS and its mixed polyphenols have potent SOD1 protecting, diverse radical-scavenging and antimutagenic activities furthering to DNA protection/therapy in arsenic-induced tissue necrosis/apoptosis.

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Section: Introductionmentioning

confidence: 99%

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H₂O₂Related in Vitro Oxidant Stress

Acharyya

Chattopadhyay

Maiti

2014

Journal of Environmental Science and Health, Part C

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“…It is known that xenobiotic interaction may increase or decrease the toxic effect of one or many substances. [10][11][12] Therefore, the effects of AgNPs and F co-exposure on cell viability, oxidative stress, and inflammation were evaluated in vitro.…”

Section: Introductionmentioning

confidence: 99%

Pharmacological and toxicological effects of co-exposure of human gingival fibroblasts to silver nanoparticles and sodium fluoride

Inkielewicz‐Stępniak¹,

Santos-Martínez²,

Medina³

et al. 2014

IJN

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Background Silver nanoparticles (AgNPs) and fluoride (F) are pharmacological agents widely used in oral medicine and dental practice due to their anti-microbial/anti-cavity properties. However, risks associated with the co-exposure of local cells and tissues to these xenobiotics are not clear. Therefore, we have evaluated the effects of AgNPs and F co-exposure on human gingival fibroblast cells. Methods Human gingival fibroblast cells (CRL-2014) were exposed to AgNPs and/or F at different concentrations for up to 24 hours. Cellular uptake of AgNPs was examined by transmission electron microscopy. Downstream inflammatory effects and oxidative stress were measured by real-time quantitative polymerase chain reaction (PCR) and reactive oxygen species (ROS) generation. Cytotoxicity and apoptosis were measured by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay and real-time quantitative PCR and flow cytometry, respectively. Finally, the involvement of mitogen-activated protein kinases (MAPK) was studied using Western blot. Results We found that AgNPs penetrated the cell membrane and localized inside the mitochondria. Co-incubation experiments resulted in increased oxidative stress, inflammation, and apoptosis. In addition, we found that co-exposure to both xenobiotics phosphorylated MAPK, particularly p42/44 MAPK. Conclusion A combined exposure of human fibroblasts to AgNPs and F results in increased cellular damage. Further studies are needed in order to evaluate pharmacological and potentially toxicological effects of AgNPs and F on oral health.

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“…Se-As interactions have also been reported (Davis et al, 2000) to produce alterations in the methylated pathway and to alter DNA methylation in CaCo2 cells in vitro. Studies by Flora et al (2012) in mice examined the combined oxidative stress effects of As and fluoride administered in drinking water for 28 weeks. These investigators found evidence of oxidative damage to a number of molecular DNA and protein parameters from coexposure to these elements, but effects were not synergistic.…”

Section: Arsenic and Other Metalsmentioning

confidence: 99%

Interactions and Mixtures in Metal Toxicology

Nordberg¹,

Gerhardsson²,

Mumtaz³

et al. 2015

Handbook on the Toxicology of Metals

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A possible mechanism for combined arsenic and fluoride induced cellular and DNA damage in mice

Cited by 61 publications

References 62 publications

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H₂O₂Related in Vitro Oxidant Stress

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H₂O₂Related in Vitro Oxidant Stress

Pharmacological and toxicological effects of co-exposure of human gingival fibroblasts to silver nanoparticles and sodium fluoride

Interactions and Mixtures in Metal Toxicology

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A possible mechanism for combined arsenic and fluoride induced cellular and DNA damage in mice

Cited by 61 publications

References 62 publications

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H2O2Related in Vitro Oxidant Stress

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H2O2Related in Vitro Oxidant Stress

Pharmacological and toxicological effects of co-exposure of human gingival fibroblasts to silver nanoparticles and sodium fluoride

Interactions and Mixtures in Metal Toxicology

Contact Info

Product

Resources

About

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H₂O₂Related in Vitro Oxidant Stress

Chemoprevention Against Arsenic-Induced Mutagenic DNA Breakage and Apoptotic Liver Damage in Rat Via Antioxidant and SOD1 Upregulation by Green Tea (Camellia sinensis) which Recovers Broken DNA Resulted from Arsenic-H₂O₂Related in Vitro Oxidant Stress