Confounding experimental considerations in nanogenotoxicology

Doak, Shareen H.; Griffiths, Sioned M.; Manshian, Bella B.; Singh, Neenu; Williams, Paul; Brown, Andy; Jenkins, Gareth

doi:10.1093/mutage/gep010

Cited by 207 publications

(177 citation statements)

References 53 publications

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“…Fluorescence in situ hybridization (FISH) for human chromosomes 1 and 4 was used to determine the chromosome number (Abbott Molecular, Des Plaines, IL) according to the guidelines of the American College of Medical Genetics [43]. To yield binucleate cells to indicate any nondisjunction of chromosomes 1 and 4, cytochalasin B was considered, however; use of this compound inhibits uptake of carbon nanotubes by endocytosis [21]. A minimum of 100 interphase cells of good FISH morphology were analyzed to determine the number of chromosome 1 and 4.…”

Section: Chromosome Number By Fishmentioning

confidence: 99%

“…In vitro investigations have shown SWCNT-induced DNA damage in established cancer cell lines, immortalized bronchial epithelial cells as well as primary mouse embryo fibroblasts and human mesothelial cells [18][19][20]. Micronuclei have been observed in significant numbers following in vitro treatment with SWCNT or MWCNT indicating disruption of the mitotic spindle apparatus [19,21]. The presence of chromosome centromeres in the micronuclei indicates the loss of whole chromosomes.…”

Section: Introductionmentioning

confidence: 99%

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Single-walled carbon nanotube-induced mitotic disruption

Sargent

Hubbs

Young

et al. 2012

Mutation Research/Genetic Toxicology and Environmental Mutagene

147

123

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Carbon nanotubes were among the earliest products of nanotechnology and have many potential applications in medicine, electronics, and manufacturing. The low density, small size, and biological persistence of carbon nanotubes create challenges for exposure control and monitoring and make respiratory exposures to workers likely. We have previously shown mitotic spindle aberrations in cultured primary and immortalized human airway epithelial cells exposed to 24, 48 and 96 μg/cm 2 single-walled carbon nanotubes (SWCNT). To investigate mitotic spindle aberrations at concentrations anticipated in exposed workers, primary and immortalized human airway epithelial cells were exposed to SWCNT for 24-72 h at doses equivalent to 20 weeks of exposure at the Permissible Exposure Limit for particulates not otherwise regulated. We have now demonstrated fragmented centrosomes, disrupted mitotic spindles and aneuploid chromosome number at those doses. The data further demonstrated multipolar mitotic spindles comprised 95% of the disrupted mitoses. The increased multipolar mitotic spindles were associated with an increased number of cells in the G2 phase of mitosis, indicating a mitotic checkpoint response. Nanotubes were observed in association with mitotic spindle microtubules, the centrosomes and condensed chromatin in cells exposed to 0.024, 0.24, 2.4 and 24 μg/cm 2 SWCNT. Three- Conflict of interest statementThe authors declare that there are no conflicts of interest. Appendix A. Supplementary dataSupplementary data associated with this article can be found, in the online version, at doi:10.1016/j.mrgentox.2011.11.017. HHS Public Access Author Manuscript Author ManuscriptAuthor ManuscriptAuthor Manuscript dimensional reconstructions showed carbon nanotubes within the centrosome structure. The lower doses did not cause cytotoxicity or reduction in colony formation after 24 h; however, after three days, significant cytotoxicity was observed in the SWCNT-exposed cells. Colony formation assays showed an increased proliferation seven days after exposure. Our results show significant disruption of the mitotic spindle by SWCNT at occupationally relevant doses. The increased proliferation that was observed in carbon nanotube-exposed cells indicates a greater potential to pass the genetic damage to daughter cells. Disruption of the centrosome is common in many solid tumors including lung cancer. The resulting aneuploidy is an early event in the progression of many cancers, suggesting that it may play a role in both tumorigenesis and tumor progression. These results suggest caution should be used in the handling and processing of carbon nanotubes.

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Section: Chromosome Number By Fishmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Single-walled carbon nanotube-induced mitotic disruption

Sargent

Hubbs

Young

et al. 2012

Mutation Research/Genetic Toxicology and Environmental Mutagene

147

123

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“…[57][58][59] In order to check for anyi nterference, ac ontrol experiment was performed by incubating varying concentrations of test materials with WST-8 assay for an hour in ac ell free condition to check for possible formazan production through material-inducedr eductions. Figure 4d etails the dataoft he WST-8 control experiments.…”

Section: Nanomaterials Induced Interferencementioning

confidence: 99%

“…Secondly, the nanomaterials could interferet hrough binding with the formazanc rystals formed, therebyg enerating af alse negative result and cause an underestimation in the number of viable cells. [41,[57][58][59][60][61][62] To investigate whether the test materials could induce ar eduction of the active tetrazolium salt, different concentrationso ft he Group 5t ransition metal ditelluride was exposed with the MTT assay in ac ell free environment. To study the probable binding effect, ascorbic acid was added to different concentrations of MTe 2 to induce the formazan crystals formation from the MTT assay.I fM Te 2 binds with the formazan crystals, one would expect to see ad ecreasei nt he percentage of formazan with increasing amount of the test materials.…”

Section: Nanomaterials Induced Interferencementioning

confidence: 99%

Cytotoxicity of Group 5 Transition Metal Ditellurides (MTe₂; M=V, Nb, Ta)

Chia

Latiff

Sofer

et al. 2017

Chemistry A European J

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Much research effort has been put in to study layered compounds with transition metal dichalcogenides (TMDs) being one of the most studied compounds. Due to their extraordinary properties such as excellent electrochemical properties, tuneable band gaps, andlow shear resistance due to weak van derW aals interactions betweenl ayers, TMDs have been found to have wide applicationss uch as electrocatalysts for hydrogen evolution reactions, supercapacitors, biosensors, field-effect transistors (FETs), photovoltaics, and lubricant additives. In very recent years, Group 5t ransition metal ditellurides have received an immense amount of research attention.H owevert od ate, little has been known of the potentialt oxicities posed by these materials. As such, we conducted the cytotoxicity study by incubating various concentrations of the Group 5t ransition metal ditellurides (MTe 2 ;M= V, Nb,T a) with human lung carcinoma epithelial A549 cells for 24 hours and the remaining cell viabilities after treatment was measured. Our findings indicate that VTe 2 is highlyt oxic whereas NbTe 2 and TaTe 2 are deemed to exhibit mild toxicities. This study constitutes an exemplary first step towards the understanding of the Group 5t ransition metal ditellurides' toxicitye ffects in preparation for their possible future commercialisation. IntroductionEver since the first isolation of graphene from graphite by Novoselove tal. in 2004, [1] two-dimensional (2D) nanomaterials have gained intensiveacademic and industrial research interest due to their extraordinarya nd unique properties. To date, a vast range of 2D nanomaterials have been reported;s uch examplesi nclude transition metal dichalcogenides( TMDs), graphitic carbon nitride (g-C 3 N 4 ), black phosphorus, and hexagonal boron nitride (h-BN). [2][3][4][5][6][7][8] Among2 Dn anomaterials, TMDs are deemed to be one of the most studied layered compounds due to their extraordinary electrochemical properties. [9][10][11][12] TMDs have ag eneral chemical formula of MX 2 ,w hereby M represents at ransition metal (for instance Ti,V ,N b, Ta,M o, W, and so on) of a + 4o xidation state and Xi sachalcogen (S, Se, or Te)w ith a À2o xidation state . [9,13,14] Different permutations of thesee lements give rise to approximately6 0d ifferent TMDs, where two-thirds of these compounds are reported to assumel ayereds tructures. Generally,t ransition metals from Groups4 -7 generate compounds that are predominantly layered while some Group 8-10 transition metals give rise to three-dimensional crystal compounds. [14][15][16] Many TMDs possess al ayered structure akin to graphite, and within one layer of TMDs,t he transition metal is sandwiched between two chalcogens, hence resulting in the MX 2 stoichiometry.I th as been reported that the bonds within each layer are covalent, whereas the bonds between two different MX 2 layersa re typicallyh eld by van der Waals forces of interactions, thus allowing exfoliation of TMDs down to single layers. [9,[13][14][15][17][18][19] The unique and advantageous...

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“…Examples for interference caused by NMs comprise conversion of tetrazolium salts ( [5][6][7]), adsorption of dyes ( [8,9]), interference by absorbance ( [10,11]), by fluorescence ( [9,12]), by binding of proteins ( [13]), by dye degradation ( [14]), by redox reactions ( [15]) and by light scattering ( [16,17]). …”

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confidence: 99%

Important issues in the cytotoxicity screening of nano-sized materials

Frőhlich¹,

Meindl²,

Pieber³

2010

EURO-NanoTox-Letters

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Due to their extraordinary properties nano-sized materials (NMs) are increasingly used in industrial, pharmaceutical and medical applications. An even broader use is currently limited by concern about their potential adverse effect on health. Screening for toxic effects of all engineered NMs therefore, is needed to demonstrate biocompatibility. The identification of adverse cellular effects is one of the first steps in the toxicological assessment of drug compounds before they get to the market. A panel of cytotoxicity screening assays is available and can be used also for the assessment of NMs. The use of these established and validated assays for the testing of NMs, however, is complicated by the fact that NMs may interfere by color, chemical reactivity and light scattering leading to false positive or false negative results. The paper illustrates the principles of conventional cytotoxicity screening assays and discusses their suitability for the assessment of NMs. Adequate controls to identify interference and alternatives, if interference with the used assay is seen, are suggested.

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Confounding experimental considerations in nanogenotoxicology

Cited by 207 publications

References 53 publications

Single-walled carbon nanotube-induced mitotic disruption

Single-walled carbon nanotube-induced mitotic disruption

Cytotoxicity of Group 5 Transition Metal Ditellurides (MTe₂; M=V, Nb, Ta)

Important issues in the cytotoxicity screening of nano-sized materials

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Confounding experimental considerations in nanogenotoxicology

Cited by 207 publications

References 53 publications

Single-walled carbon nanotube-induced mitotic disruption

Single-walled carbon nanotube-induced mitotic disruption

Cytotoxicity of Group 5 Transition Metal Ditellurides (MTe2; M=V, Nb, Ta)

Important issues in the cytotoxicity screening of nano-sized materials

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Cytotoxicity of Group 5 Transition Metal Ditellurides (MTe₂; M=V, Nb, Ta)