Widespread Nanoparticle-Assay Interference: Implications for Nanotoxicity Testing

Ong, Kimberly J.; MacCormack, Tyson J.; Clark, Rhett J.; Ede, James D.; Ortega, Van A.; Felix, Lindsey C.; Dang, Michael K. M.; Ma, Guibin; Fenniri, Hicham; Veinot, Jonathan G. C.; Goss, Greg G.

doi:10.1371/journal.pone.0090650

Cited by 232 publications

(233 citation statements)

References 47 publications

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“…First, potential nanoparticle-dye interferences must be considered to avoid false-positive and false-negative results. [26,27] No interference was observed measuring luminescence of ATP standards in the presence of liposomes ( Figure S1). Figure 1 Representative confocal-multiphoton images are shown in Figure 3a and results of image analysis of the sequestered z-stacks are given in Figure 3b.…”

Section: Cell Viability Studymentioning

confidence: 98%

Bacteriomimetic invasin-functionalized nanocarriers for intracellular delivery

Menina

Kochut

Gordon

et al. 2015

Journal of Controlled Release

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Intracellular bacteria invade mammalian cells to establish an infectious niche. The current work models adhesion and subsequent internalization strategy of pathogenic bacteria into mammalian cells to design a bacteriomimetic bioinvasive delivery system. We report on the surface functionalization of liposomes with a C-terminal fragment of invasin (InvA497), an invasion factor in the outer membrane of Yersinia pseudotuberculosis. InvA497-functionalized liposomes adhere to mammalian epithelial HEp-2 cell line at different infection stages with a significantly higher efficiency than liposomes functionalized with bovine serum albumin. Covalent attachment of InvA497 results in higher cellular adhesion than liposomes with physically adsorbed InvA497 with non-specific surface protein alignment. Uptake studies in HEp-2 cells indicate active internalization of InvA497-functionalized liposomes via β1-integrin receptor-mediated uptake mechanism mimicking the natural invasion strategy of Yersinia pseudotuberculosis. Uptake studies in Caco-2 cells at different polarization states demonstrate specific targeting of the InvA497-functionalized liposomes to less polarized cells reflecting the status of inflamed cells. Moreover, when loaded with the anti-infective agent gentamicin and applied to HEp-2 cells infected with Yersinia pseudotuberculosis, InvA497-functionalized liposomes are able to significantly reduce the infection load relative to nonfunctionalized drug-loaded liposomes. This indicates a promising application of such a bacteriomimetic system for drug delivery to intracellular compartments. *Graphical AbstractBacterial invas on into a human cellvia outer ..•

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Section: Cell Viability Studymentioning

confidence: 98%

Bacteriomimetic invasin-functionalized nanocarriers for intracellular delivery

Menina

Kochut

Gordon

et al. 2015

Journal of Controlled Release

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“…[39][40][41] As such, control experiments were performed in the absence of cells to check for possible sources of particle-induced interferences,t od etermine the suitability of the assays. Therefore, we set out to determinep ossible forms of particle-inducedi nterferences for two commonly used assays which have similar working mechanisms:W ST-8 and methyl thiazolyldiphenyl-tetrazoliumbromide (MTT) assays.…”

Section: Nanomaterials Induced Interferencementioning

confidence: 99%

“…[10,35] The remaining cell viability of the A549 cellsa fter 24 hi ncubation with variousM Te 2 concentrations was measured and analysed using the water-soluble tetrazolium salt (WST-8) assay.F urthermore, controle xperiments were also conducted in the absence of cells to check for possible sources of particle-induced interferences between MTe 2 with cell viability assaym arkersw hichc ould cause false positive or false negative resultstob eproduced. [39][40][41] Results and Discussion…”

Section: Introductionmentioning

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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“…While false-negative results by the inhibition of LDH activity by Si, Au, and CdSe NPs 96 was avoided, the addition of BSA caused false-negative effects in protein detection via the Bradford reagent. 97 For the identification of potential assay interference, the incubation of NPs with the assay compounds alone (in the absence of cells) and with cells alone (in the absence of assay compounds) can be used. These controls are, however, only useful when the NPs interact with assay compounds and with the readout; assay interactions by Au NPs, which increased the detected amount of dead cells by shuttling the indicator dye, propidium iodide, into the cells, would not have been revealed.…”

Section: In Vitro -Assay Interferencementioning

confidence: 99%

Value of phagocyte function screening for immunotoxicity of nanoparticles in vivo

Frőhlich¹

2015

IJN

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Nanoparticles (NPs) present in the environment and in consumer products can cause immunotoxic effects. The immune system is very complex, and in vivo studies are the gold standard for evaluation. Due to the increased amount of NPs that are being developed, cellular screening assays to decrease the amount of NPs that have to be tested in vivo are highly needed. Effects on the unspecific immune system, such as effects on phagocytes, might be suitable for screening for immunotoxicity because these cells mediate unspecific and specific immune responses. They are present at epithelial barriers, in the blood, and in almost all organs. This review summarizes the effects of carbon, metal, and metal oxide NPs used in consumer and medical applications (gold, silver, titanium dioxide, silica dioxide, zinc oxide, and carbon nanotubes) and polystyrene NPs on the immune system. Effects in animal exposures through different routes are compared to the effects on isolated phagocytes. In addition, general problems in the testing of NPs, such as unknown exposure doses, as well as interference with assays are mentioned. NPs appear to induce a specific immunotoxic pattern consisting of the induction of inflammation in normal animals and aggravation of pathologies in disease models. The evaluation of particle action on several phagocyte functions in vitro may provide an indication on the potency of the particles to induce immunotoxicity in vivo. In combination with information on realistic exposure levels, in vitro studies on phagocytes may provide useful information on the health risks of NPs.

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Widespread Nanoparticle-Assay Interference: Implications for Nanotoxicity Testing

Cited by 232 publications

References 47 publications

Bacteriomimetic invasin-functionalized nanocarriers for intracellular delivery

Bacteriomimetic invasin-functionalized nanocarriers for intracellular delivery

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

Value of phagocyte function screening for immunotoxicity of nanoparticles in vivo

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Widespread Nanoparticle-Assay Interference: Implications for Nanotoxicity Testing

Cited by 232 publications

References 47 publications

Bacteriomimetic invasin-functionalized nanocarriers for intracellular delivery

Bacteriomimetic invasin-functionalized nanocarriers for intracellular delivery

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

Value of phagocyte function screening for&nbsp;immunotoxicity of nanoparticles in vivo

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Product

Resources

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

Value of phagocyte function screening for immunotoxicity of nanoparticles in vivo