Investigating arsenic toxicity in tropical soils: A cell cycle and DNA fragmentation approach

Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic eff...

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Published inThe Science of the total environment Vol. 698; p. 134272
Main Authors Alvarenga, Ingrid Fernanda Santana, dos Santos, Fabio Eduardo, Silveira, Graciele Lurdes, Andrade-Vieira, Larissa Fonseca, Martins, Gabriel Caixeta, Guilherme, Luiz Roberto Guimarães
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.01.2020
Subjects
Allium cepa
arsenic
Arsenic - toxicity
bioassays
Biological Assay
Cell Cycle
Chromosome Aberrations
Clastogenic action
Comet Assay
Condensed nuclei
DNA Damage
DNA Fragmentation
Ecosystem
ecosystems
Genotoxicity
humans
Inceptisols
mechanism of action
Meristem
Micronuclei
mitosis
Mitotic Index
Mutagens
Onions
Oxisols
Plant Roots
polluted soils
root tips
Soil
Soil Pollutants - toxicity
toxicity
Toxicity Tests
tropical soils
Condensed nuclei
Allium cepa
Micronuclei
Comet assay
Clastogenic action
Genotoxicity
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Abstract Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic effects of model plants in As-contaminated soil, mainly in tropical areas, this study proposes the use of Allium cepa root tip bioassays for a fast-track assessment of As toxicity in tropical soils. For this end, root tip cells of A. cepa were exposed to an Oxisol, an Inceptisol and a Tropical Artificial Soil (TAS) contaminated with increasing doses of As (0, 8, 14.5, 26, 46.5, 84, 150, and 270 mg kg−1). The effects of As on cell cycle, micronucleus formation, and DNA fragmentation were evaluated. In general, root tip cells exposure to As increases the frequency of chromosome abnormalities and micronucleus, in turn, decreasing the frequency of mitotic index. As-treated cells also presented an increase in the percentage of DNA damage observed in comet assay. Overall, the effects of As in TAS were more pronounced, than in the Oxisol, being the Inceptisol the less toxic. A discussion of each As effect in cells and the link with the soil type is presented and reveals that clastogenic effects of As in A. cepa cells seemed to be the mode of action of this soil contaminant. [Display omitted] •Exposure to As increased the frequency of DNA alteration and fragmentation in A. cepa.•Clastogenic effects caused by As were evident in Allium cepa root tip cells.•The comet assay showed that arsenic generates cell damage.
AbstractList Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic effects of model plants in As-contaminated soil, mainly in tropical areas, this study proposes the use of Allium cepa root tip bioassays for a fast-track assessment of As toxicity in tropical soils. For this end, root tip cells of A. cepa were exposed to an Oxisol, an Inceptisol and a Tropical Artificial Soil (TAS) contaminated with increasing doses of As (0, 8, 14.5, 26, 46.5, 84, 150, and 270 mg kg−1). The effects of As on cell cycle, micronucleus formation, and DNA fragmentation were evaluated. In general, root tip cells exposure to As increases the frequency of chromosome abnormalities and micronucleus, in turn, decreasing the frequency of mitotic index. As-treated cells also presented an increase in the percentage of DNA damage observed in comet assay. Overall, the effects of As in TAS were more pronounced, than in the Oxisol, being the Inceptisol the less toxic. A discussion of each As effect in cells and the link with the soil type is presented and reveals that clastogenic effects of As in A. cepa cells seemed to be the mode of action of this soil contaminant. [Display omitted] •Exposure to As increased the frequency of DNA alteration and fragmentation in A. cepa.•Clastogenic effects caused by As were evident in Allium cepa root tip cells.•The comet assay showed that arsenic generates cell damage.
Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic effects of model plants in As-contaminated soil, mainly in tropical areas, this study proposes the use of Allium cepa root tip bioassays for a fast-track assessment of As toxicity in tropical soils. For this end, root tip cells of A. cepa were exposed to an Oxisol, an Inceptisol and a Tropical Artificial Soil (TAS) contaminated with increasing doses of As (0, 8, 14.5, 26, 46.5, 84, 150, and 270 mg kg ). The effects of As on cell cycle, micronucleus formation, and DNA fragmentation were evaluated. In general, root tip cells exposure to As increases the frequency of chromosome abnormalities and micronucleus, in turn, decreasing the frequency of mitotic index. As-treated cells also presented an increase in the percentage of DNA damage observed in comet assay. Overall, the effects of As in TAS were more pronounced, than in the Oxisol, being the Inceptisol the less toxic. A discussion of each As effect in cells and the link with the soil type is presented and reveals that clastogenic effects of As in A. cepa cells seemed to be the mode of action of this soil contaminant.
Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic effects of model plants in As-contaminated soil, mainly in tropical areas, this study proposes the use of Allium cepa root tip bioassays for a fast-track assessment of As toxicity in tropical soils. For this end, root tip cells of A. cepa were exposed to an Oxisol, an Inceptisol and a Tropical Artificial Soil (TAS) contaminated with increasing doses of As (0, 8, 14.5, 26, 46.5, 84, 150, and 270 mg kg−1). The effects of As on cell cycle, micronucleus formation, and DNA fragmentation were evaluated. In general, root tip cells exposure to As increases the frequency of chromosome abnormalities and micronucleus, in turn, decreasing the frequency of mitotic index. As-treated cells also presented an increase in the percentage of DNA damage observed in comet assay. Overall, the effects of As in TAS were more pronounced, than in the Oxisol, being the Inceptisol the less toxic. A discussion of each As effect in cells and the link with the soil type is presented and reveals that clastogenic effects of As in A. cepa cells seemed to be the mode of action of this soil contaminant.
Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic effects of model plants in As-contaminated soil, mainly in tropical areas, this study proposes the use of Allium cepa root tip bioassays for a fast-track assessment of As toxicity in tropical soils. For this end, root tip cells of A. cepa were exposed to an Oxisol, an Inceptisol and a Tropical Artificial Soil (TAS) contaminated with increasing doses of As (0, 8, 14.5, 26, 46.5, 84, 150, and 270 mg kg-1). The effects of As on cell cycle, micronucleus formation, and DNA fragmentation were evaluated. In general, root tip cells exposure to As increases the frequency of chromosome abnormalities and micronucleus, in turn, decreasing the frequency of mitotic index. As-treated cells also presented an increase in the percentage of DNA damage observed in comet assay. Overall, the effects of As in TAS were more pronounced, than in the Oxisol, being the Inceptisol the less toxic. A discussion of each As effect in cells and the link with the soil type is presented and reveals that clastogenic effects of As in A. cepa cells seemed to be the mode of action of this soil contaminant.Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur worldwide and might pose a threat not only to humans, but also to many ecosystems. Considering the scarcity of studies regarding cytogenotoxic effects of model plants in As-contaminated soil, mainly in tropical areas, this study proposes the use of Allium cepa root tip bioassays for a fast-track assessment of As toxicity in tropical soils. For this end, root tip cells of A. cepa were exposed to an Oxisol, an Inceptisol and a Tropical Artificial Soil (TAS) contaminated with increasing doses of As (0, 8, 14.5, 26, 46.5, 84, 150, and 270 mg kg-1). The effects of As on cell cycle, micronucleus formation, and DNA fragmentation were evaluated. In general, root tip cells exposure to As increases the frequency of chromosome abnormalities and micronucleus, in turn, decreasing the frequency of mitotic index. As-treated cells also presented an increase in the percentage of DNA damage observed in comet assay. Overall, the effects of As in TAS were more pronounced, than in the Oxisol, being the Inceptisol the less toxic. A discussion of each As effect in cells and the link with the soil type is presented and reveals that clastogenic effects of As in A. cepa cells seemed to be the mode of action of this soil contaminant.
ArticleNumber 134272
Author Andrade-Vieira, Larissa Fonseca
Martins, Gabriel Caixeta
Guilherme, Luiz Roberto Guimarães
Silveira, Graciele Lurdes
Alvarenga, Ingrid Fernanda Santana
dos Santos, Fabio Eduardo
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  fullname: dos Santos, Fabio Eduardo
  organization: Department of Biology, Federal University of Lavras, 37200-000 Lavras, MG, Brazil
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  givenname: Graciele Lurdes
  surname: Silveira
  fullname: Silveira, Graciele Lurdes
  organization: Department of Biology, Federal University of Lavras, 37200-000 Lavras, MG, Brazil
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  givenname: Larissa Fonseca
  surname: Andrade-Vieira
  fullname: Andrade-Vieira, Larissa Fonseca
  email: larissa.vieira@ufla.br
  organization: Department of Biology, Federal University of Lavras, 37200-000 Lavras, MG, Brazil
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  givenname: Gabriel Caixeta
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  organization: Vale Institute of Technology, 66055-090 Belém, PA, Brazil
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  givenname: Luiz Roberto Guimarães
  surname: Guilherme
  fullname: Guilherme, Luiz Roberto Guimarães
  organization: Department of Soil Science, Federal University of Lavras, 37200-000 Lavras, MG, Brazil
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Keywords Condensed nuclei
Allium cepa
Micronuclei
Comet assay
Clastogenic action
Genotoxicity
Language English
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Snippet Arsenic (As) is a metalloid and a toxicant that is found naturally in many environmental compartments, soils included. Soils with high levels of As occur...
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StartPage 134272
SubjectTerms Allium cepa
arsenic
Arsenic - toxicity
bioassays
Biological Assay
Cell Cycle
Chromosome Aberrations
Clastogenic action
Comet Assay
Condensed nuclei
DNA Damage
DNA Fragmentation
Ecosystem
ecosystems
Genotoxicity
humans
Inceptisols
mechanism of action
Meristem
Micronuclei
mitosis
Mitotic Index
Mutagens
Onions
Oxisols
Plant Roots
polluted soils
root tips
Soil
Soil Pollutants - toxicity
toxicity
Toxicity Tests
tropical soils
Title Investigating arsenic toxicity in tropical soils: A cell cycle and DNA fragmentation approach
URI https://dx.doi.org/10.1016/j.scitotenv.2019.134272
https://www.ncbi.nlm.nih.gov/pubmed/31783468
https://www.proquest.com/docview/2315286419
https://www.proquest.com/docview/2320379008
Volume 698
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