Search results for "Arsenites"

showing 8 items of 8 documents

Role of the antioxidant defence system and telomerase in arsenic-induced genomic instability

2016

Arsenic (AS) is a reactive oxygen species (ROS)-inducer carcinogen, whose mode of action is still unclear. To defend against ROS, cells use enzymatic and non-enzymatic antioxidants, such as superoxide dismutase (SOD) and catalase. Failure of antioxidant systems (AXS) can result in dicentric chromosomes formation as well as telomere associations for the reduced activity of telomerase. In order to clarify the long-term effects of a past AS exposure, we evaluated the efficiency of the AXS and the telomerase activity in the progeny of arsenite-treated cells named ASO (arsenic shake-off) cells, previously obtained from arsenite-treated V79 cells and selected by shake-off. Despite SOD1 expression…

0301 basic medicineTelomeraseArsenitesHealth Toxicology and MutagenesisClone (cell biology)ToxicologyAntioxidantsGenomic InstabilitySuperoxide dismutase03 medical and health sciencesTelomerase RNA componentCricetulus0302 clinical medicineGeneticsAnimalsTelomerase reverse transcriptaseArsenic Genomic instability Antioxidant defense system SOD CAT Telomerase.TelomeraseGenetics (clinical)chemistry.chemical_classificationReactive oxygen speciesbiologySuperoxide DismutaseCatalaseMolecular biologyTelomereSettore BIO/18 - Genetica030104 developmental biologyGene Expression RegulationchemistryCatalase030220 oncology & carcinogenesisbiology.proteinReactive Oxygen SpeciesMutagenesis
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Biological effects of inorganic arsenic on primary cultures of rat astrocytes

2010

It is well established that inorganic arsenic induces neurotoxic effects and neurological defects in humans and laboratory animals. The cellular and molecular mechanisms of its actions, however, remain elusive. Herein we report the effects of arsenite (NaAsO2) on primary cultures of rat astrocytes. Cells underwent induction of heat shock protein 70 only at the highest doses of inorganic arsenic (30 and 60 microM), suggesting a high threshold to respond to stress. We also investigated arsenic genotoxicity with the comet assay. Interestingly, although cells treated with 10 microM arsenite for 24 h maintained >70% viability, with respect to untreated cells, high DNA damage was already observed…

ArsenitesCell SurvivalDNA damagechemistry.chemical_elementBiologymedicine.disease_causeRats Sprague-Dawleychemistry.chemical_compoundSuperoxide Dismutase-1Settore BIO/10 - BiochimicaGeneticsmedicineAnimalsCell damageCells CulturedArsenicArseniteSuperoxide DismutaseGeneral Medicinemedicine.diseaseMolecular biologyCarcinogens EnvironmentalRatsHsp70Comet assaySettore BIO/18 - GeneticachemistryBiochemistryApoptosisAstrocytesComet Assayinorganic arsenic astrocytes cell damage DNA damage PIPPin.Reactive Oxygen SpeciesGenotoxicityDNA DamageInternational Journal of Molecular Medicine
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Early induction of genetic instability and apoptosis by arsenic in cultured Chinese hamster cells

2002

In order to assess at what time from the beginning of exposure inorganic arsenic can give rise to genetic instability and trigger apoptosis, V79-C13 Chinese hamster cells were treated with 10 microM sodium arsenite for 24 h. Under these conditions, cell survival was >70% and cells showed neither an increase in chromosome aberration frequency nor a delay in cell cycle progression. Investigations, which were carried out every 6 h during the treatment, revealed an early appearance of genetically unstable cells, namely micronucleated, multinucleated and mononucleated 'giant' cells, as well as apoptotic cells. Indirect immunostaining using anti-beta-tubulin antibody showed severe alterations in …

ArsenitesCell SurvivalHealth Toxicology and MutagenesisPopulationMitosisHamsterApoptosisToxicologyChromosome aberrationChromosomesChinese hamsterCricetulusMultinucleateCricetinaeGeneticsAnimalseducationMitosisGenetics (clinical)Chromosome Aberrationseducation.field_of_studybiologyAneuploidybiology.organism_classificationSodium CompoundsMolecular biologyCell biologySettore BIO/18 - GeneticaCell cultureApoptosisCytogenetic AnalysisMutationarsenic genomic instability apoptosisFluorescein-5-isothiocyanate
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Speciation and oxidation kinetics of arsenic in the thermal springs of Wiesbaden spa, Germany.

2001

Since 1886 arsenic has been known to be present as a trace component in the Wiesbaden thermal waters at concentrations of over 100 microg L(-1). In this study for the first time molecular level speciation of arsenic was measured both in the water (by HG-AAS) and in wellstone scale deposits (by XANES). Most of the arsenic in the anoxic NaCl-type waters is in the reduced arsenite form. Hydrous ferric oxide (HFO) precipitates in the scale deposits scavenge only the minor dissolved arsenate portion which is, however, accumulated up to 3% w/w. Isothermal precipitation experiments at in-situ temperatures showed a difference between the progress of both arsenic and iron oxidation and precipitation…

ArsenitesInorganic chemistrychemistry.chemical_elementengineering.materialBiochemistryFerric CompoundsArsenicHydrous ferric oxideschemistry.chemical_compoundAdsorptionWater SupplyGermanyChemical PrecipitationArsenicArseniteAqueous solutionPrecipitation (chemistry)Spectrum AnalysisX-RaysArsenateAnoxic watersKineticschemistrySolubilityEnvironmental chemistryengineeringMicroscopy Electron ScanningOxidation-ReductionWater Pollutants ChemicalFresenius' journal of analytical chemistry
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Dysregulation of DNA methylation induced by past arsenic treatment causes persistent genomic instability in mammalian cells

2015

The mechanisms by which arsenic-induced genomic instability is initiated and maintained are poorly understood. To investigate potential epigenetic mechanisms, in this study we evaluated global DNA methylation levels in V79 cells and human HaCaT keratinocytes at several time points during expanded growth of cell cultures following removal of arsenite exposures. We have found altered genomic methylation patterns that persisted up to 40 cell generations in HaCaT cells after the treatments were withdrawn. Moreover, mRNA expression levels were evaluated by RT-PCR for DNMT1, DNMT3A, DNMT3B, HMLH1, and HMSH2 genes, demonstrating that the down regulation of DNMT3A and DNMT3B genes, but not DNMT1, o…

DNA (Cytosine-5-)-Methyltransferase 1KeratinocytesDNA methylationArsenitesarsenicNuclear ProteinsFibroblastsgenomic instabilityArticleDNA Methyltransferase 3ASettore BIO/18 - GeneticaCricetulusLong Interspersed Nucleotide ElementsMutS Homolog 2 Protein5-MethylcytosineAnimalsDNA (Cytosine-5-)-MethyltransferasesMutL Protein Homolog 1Promoter Regions GeneticCells CulturedAdaptor Proteins Signal Transducing
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Adsorption mechanism of arsenate by zirconyl-functionalized activated carbon

2007

Arsenate [As(V)] and arsenite [As(III)] sorption at the solid-water interface of activated carbon impregnated with zirconyl nitrate (Zr-AC) was investigated using X-ray absorption spectroscopy (XAS) and surface complexation modeling. The XAS data at the Zr K-edge suggest that the structure of the zirconyl nitrate coating is built from chains of edge-sharing ZrO8 trigonal dodecahedra bound to each other through two double hydroxyl bridges. The 8-fold coordination of each Zr atom is completed by four O atoms, which share a bit less than the two theoretically possible bidentate nitrate groups. On impregnation, two of the O atoms may lose their nitrate group and be transformed to hydroxyl group…

DenticityArsenitesSurface PropertiesInorganic chemistrychemistry.chemical_elementchemistry [Arsenites]Biomaterialschemistry.chemical_compoundColloid and Surface ChemistryAdsorptionOxidation statechemistry [Arsenates]medicineArsenicchemistry [Zirconium]ArseniteNitrateschemistry [Nitrates]Extended X-ray absorption fine structureSpectrum AnalysisX-Rayschemistry [Water]arsenic acidArsenateWaterCarbonchemistry [Carbon]Surfaces Coatings and FilmsElectronic Optical and Magnetic Materialsarsenitechemistryddc:540PotentiometryArsenatesAdsorptionZirconiumActivated carbonmedicine.drugJournal of Colloid and Interface Science
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Long-Lasting Genomic Instability Following Arsenite Exposure inMammalian Cells: The Role of Reactive Oxygen Species

2011

Previously, we reported that the progeny of mammalian cells, which has been exposed to sodium arsenite for two cell cycles, exhibited chromosomal instability and concurrent DNA hypomethylation, when they were subsequently investigated after two months of subculturing (about 120 cell generations) in arsenite-free medium. In this work, we continued our investigations of the long-lasting arsenite-induced genomic instability by analyzing additional endpoints at several time points during the cell expanded growth. In addition to the progressive increase of aneuploid cells, we also noted micronucleated and multinucleated cells that continued to accumulate up to the 50th cell generation, as well a…

Genome instabilitySodium arseniteEpidemiologyArsenitesHealth Toxicology and MutagenesisPopulationCellarsenite; genomic instability; reactive oxygen speciesCHO CellsBiologyGenomic Instabilitychemistry.chemical_compoundMultinucleateCricetulusChromosome instabilityCricetinaemedicineAnimalseducationGenetics (clinical)Arseniteeducation.field_of_studyCell cycleDNA MethylationFlow CytometryMolecular biologyarseniteSettore BIO/18 - Geneticamedicine.anatomical_structurechemistryEnvironmental PollutantsReactive Oxygen Species
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Abundant and diverse arsenic‐metabolizing microorganisms in peatlands treating arsenic‐contaminated mining wastewaters

2020

Mining operations produce large quantities of wastewater. At a mine site in Northern Finland, two natural peatlands are used for the treatment of mining‐influenced waters with high concentrations of sulfate and potentially toxic arsenic (As). In the present study, As removal and the involved microbial processes in those treatment peatlands (TPs) were assessed. Arsenic‐metabolizing microorganisms were abundant in peat soil from both TPs (up to 108 cells gdw‐1), with arsenate respirers being about 100 times more abundant than arsenite oxidizers. In uninhibited microcosm incubations, supplemented arsenite was oxidized under oxic conditions and supplemented arsenate was reduced under anoxic con…

PeatkaivoksetArseniteschemistry.chemical_elementjätevesiBiologyWastewaterMicrobiologyMiningbiologinen puhdistusarseeniArsenic03 medical and health scienceschemistry.chemical_compoundSoilturvemaatGroundwaterEcology Evolution Behavior and SystematicsArsenicResearch ArticlesSoil Microbiology030304 developmental biologyArsenite0303 health sciences030306 microbiologyMicrobiotaArsenateAnoxic waters6. Clean waterOxygenBiodegradation EnvironmentalchemistryMicrobial population biologyEnvironmental chemistrymikro-organismitArsenateskaivosvesiMicrocosmSoil microbiologyOxidation-ReductionWater Pollutants ChemicalResearch ArticleEnvironmental Microbiology
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