Comparative study of human neuronal and glial cell sensitivity for in vitro neurogenotoxicity testing

Laffón, Blanca; Fernández-Bertólez, Natalia; Costa, Carla; Pásaro, Eduardo; Valdiglesias, Vanessa

doi:10.1016/j.fct.2017.02.005

Cited by 11 publications

(7 citation statements)

References 51 publications

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“…In that case, S-ION exposure did alter the repair of H 2 O 2 -induced DNA damage in these cells, with considerably more pronounced effects when serum-free medium was employed. This dissimilar response to S-ION exposure of the two types of nervous system cells indicates, as previously reported, that glioma cells have a more efficient repair capability of induced DNA damage than neurons(Laffon et al, 2017).All genotoxicity results together indicate that S-ION present a low genotoxic activity, limited to easily repairable DNA damage as demonstrated by the positive results obtained in comet assay together with the negative results from γH2AX and MN assays. In any case, the DNA damage induced by S-ION seems to be repaired, since the repair capacity resulted not altered, and, consequently, it was not fixed in the cells as proved by the lack of MN , all these effects were not dependent on the presence/absence of serum in the medium.Nevertheless, the quantity of iron ions released from the S-ION depended markedly on the medium composition.…”

supporting

confidence: 72%

Toxicological assessment of silica-coated iron oxide nanoparticles in human astrocytes

Fernández-Bertólez

Costa

Brandão

et al. 2018

Food and Chemical Toxicology

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Iron oxide nanoparticles (ION) have great potential for an increasing number of medical and biological applications, particularly those focused on nervous system. Although ION seem to be biocompatible and present low toxicity, it is imperative to unveil the potential risk for the nervous system associated to their exposure, especially because current data on ION effects on human nervous cells are scarce. Thus, in the present study potential toxicity associated with silica-coated ION (S-ION) exposure was evaluated on human A172 glioblastoma cells. To this aim, a complete toxicological screening testing several exposure times (3 and 24 h), nanoparticle concentrations (5-100 μg/ml), and culture media (complete and serum-free) was performed to firstly assess S-ION effects at different levels, including cytotoxicity - lactate dehydrogenase assay, analysis of cell cycle and cell death production - and genotoxicity - H2AX phosphorylation assessment, comet assay, micronucleus test and DNA repair competence assay. Results obtained showed that S-ION exhibit certain cytotoxicity, especially in serum-free medium, related to cell cycle disruption and cell death induction. However, scarce genotoxic effects and no alteration of the DNA repair process were observed. Results obtained in this work contribute to increase the knowledge on the impact of ION on the human nervous system cells.

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confidence: 72%

Toxicological assessment of silica-coated iron oxide nanoparticles in human astrocytes

Fernández-Bertólez

Costa

Brandão

et al. 2018

Food and Chemical Toxicology

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“…In all cases, cells exposed to these three genotoxic agents showed dose-dependent increases of primary DNA damage, regardless the cell sample employed, demonstrating the sensitivity of all these samples to the induction of genetic damage from different origin and their suitability for the comet assay procedure. Besides, response of the different biomatrices, i.e., salivary leucocytes, both fresh and frozen, and frozen PBL, to the three types of genetic insults was quite similar to one another, and consistent with a number of previous studies evaluating the effects of the same genotoxic agents on different cell types (Collins et al 1997;Laffon et al 2017;Valdiglesias et al 2020). Furthermore, comparing the baseline level of primary DNA damage (Fig.…”

Section: Discussionsupporting

confidence: 88%

“…Fresh and frozen saliva leucocytes and frozen PBL were exposed to four well-known DNA damaging agents: MMS, Act-D, ultraviolet (UV) radiation, and KBrO 3 . The doses used, as well as the treatment times, were selected on the basis of previous studies (Collins et al 1997;Sánchez-Flores et al 2015;Laffon et al 2017;Møller et al 2020b).…”

Section: Treatmentsmentioning

confidence: 99%

Salivary leucocytes as suitable biomatrix for the comet assay in human biomonitoring studies

et al. 2021

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Peripheral blood leucocytes (PBL) have been traditionally used to investigate DNA damage by the comet assay in population studies, but validating alternative non-invasive samples would expand the application of this assay in human biomonitoring. The objectives of this study were (i) to test the validity of salivary leucocytes as a proper biomatrix for the comet assay, (ii) to evaluate the ability of this approach to detect different types of primary and oxidative DNA damage, and (iii) to determine whether frozen salivary leucocytes are still suitable for displaying those types of DNA damage. Fresh and frozen leucocytes isolated from saliva samples (six healthy non-smoking volunteers), were exposed to four genotoxic agents inducing different types of DNA damage, both primary (methyl methanesulfonate, actinomycin-D, ultraviolet radiation) and oxidative (potassium bromate), and standard or enzyme-modified comet assay was conducted. Results were compared with those obtained from PBL. Cells exposed to the four genotoxic agents showed dose-dependent increases of primary and oxidative DNA damage, demonstrating the suitability of all these samples to detect genetic damage from different origin. When comparing baseline levels of DNA damage, just a slight significant increase in primary DNA damage was observed in frozen salivary leucocytes regarding the other biomatrices, but similar results were obtained regarding sensitivity to DNA damage induction by all agents tested. This study demonstrates that salivary leucocytes can be employed in comet assay as an alternative or complement to blood samples. Frozen salivary leucocytes were proved to be a very convenient sample in large biomonitoring studies.

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“…This different response between the two types of nervous system cells are in line with the well‐accepted idea that glial cells may have a more efficient repair ability in order to protect neuronal tissue from external insults (Saeed et al ). However, it may be also due to the less sensitivity to this type of DNA damage induction of glial cells when compared to neurons, as previously demonstrated (Laffon et al ).…”

Section: Discussionmentioning

confidence: 81%

Evaluation of cytotoxicity and genotoxicity induced by oleic acid‐coated iron oxide nanoparticles in human astrocytes

Fernández-Bertólez

Costa

Brandão

et al. 2019

Environ and Mol Mutagen

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Iron oxide nanoparticles (ION) are gaining importance as diagnostic and therapeutic tool of central nervous system diseases. Although oleic acid‐coated ION (O‐ION) have been described as stable and biocompatible, their potential neurotoxicity was scarcely evaluated in human nervous cells so far. The primary aim of this work was to assess the molecular and cellular effects of O‐ION on human astrocytes (A172 cells) under different experimental conditions. An extensive set of cyto‐ and genotoxicity tests was carried out, including lactate dehydrogenase release assay, cell cycle alterations, and cell death production, as well as comet assay, γH2AX assay, and micronucleus (MN) test, considering also iron ion release capacity and alterations in DNA repair ability. Results showed a moderate cytotoxicity related to cell cycle arrest and cell death promotion, regardless of serum presence. O‐ION induced genotoxic effects, namely primary DNA damage, as detected by the comet assay and H2AX phosphorylation, but A172 cells were able to repair this particular damage because no chromosome alterations were found (confirmed by MN test results). Accordingly, no effects on the DNA repair ability were observed. The presence of serum proteins did not influence O‐ION toxicity. Iron ions released from the O‐ION surface seemed not to be responsible for the cytotoxic and genotoxic effects observed. Environ. Mol. Mutagen. 2019. © 2019 Wiley Periodicals, Inc.

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Comparative study of human neuronal and glial cell sensitivity for in vitro neurogenotoxicity testing

Cited by 11 publications

References 51 publications

Toxicological assessment of silica-coated iron oxide nanoparticles in human astrocytes

Toxicological assessment of silica-coated iron oxide nanoparticles in human astrocytes

Salivary leucocytes as suitable biomatrix for the comet assay in human biomonitoring studies

Evaluation of cytotoxicity and genotoxicity induced by oleic acid‐coated iron oxide nanoparticles in human astrocytes

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