Systematic Analysis of Multiwalled Carbon Nanotube-Induced Cellular Signaling and Gene Expression in Human Small Airway Epithelial Cells

Snyder-Talkington, Brandi N.; Pacurari, Maricica; Dong, Chunlin; Leonard, Stephen S.; Schwegler‐Berry, Diane; Castranova, Vincent; Qian, Yong; Guo, Nancy Lan

doi:10.1093/toxsci/kft019

Cited by 32 publications

(52 citation statements)

References 33 publications

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“…A model consisting of macrophages and A549 cells in the upper chamber and dendritic cells on the basal side of the membrane in the lower chamber showed substantial inflammatory signaling induced by MWCNT exposure (Gasser et al, 2012). It has also been shown that 1.2 mg/ml MWCNT exposure to small airway epithelial cells resulted in elevated expression of genes related to inflammation and release of inflammatory cytokines (Snyder-Talkington et al, 2013b) and also on activated human microvascular endothelial cells in the lower chamber of a co-culture system (Snyder-Talkington et al, 2013a). Therefore, small airway epithelial cells could be more capable of releasing inflammatory mediators than A549 cells, although the latter do respond with increased IL-6 and IL8 transcription at very high exposure concentrations of, e.g., diesel exhaust particles (Dybdahl et al, 2004).…”

Section: Discussionmentioning

confidence: 99%

Monocyte adhesion induced by multi-walled carbon nanotubes and palmitic acid in endothelial cells and alveolar–endothelial co-cultures

et al. 2015

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Free palmitic acid (PA) is a potential pro-atherogenic stimulus that may aggravate particle-mediated cardiovascular health effects. We hypothesized that the presence of PA can aggravate oxidative stress and endothelial activation induced by multi-walled carbon nanotube (MWCNT) exposure in vitro. We investigated the interaction between direct exposure to MWCNTs and PA on THP-1 monocyte adhesion to human umbilical vein endothelial cells (HUVECs), as well as on indirect exposure in an alveolar-endothelial co-culture model with A549 cells and THP-1-derived macrophages exposed in inserts and the effect measured in the lower chamber on HUVECs and THP-1 cells. The exposure to MWCNTs, including a short (NM400) and long (NM402) type of entangled fibers, was associated with elevated levels of reactive oxygen species as well as a decrease in the intracellular glutathione concentration in HUVEC and A549 monocultures. Both effects were found to be independent of the presence of PA. MWCNT exposure significantly increased THP-1 monocyte adhesion to HUVECs, and co-exposure to PA aggravated the NM400-mediated adhesion but decreased the NM402-mediated adhesion. For the co-cultures, the exposure of A549 cells did not promote THP-1 adhesion to HUVECs in the lower chamber. When THP-1 macrophages were present on the cell culture inserts, there was a modest increase in the adhesion and an increase in interleukin-6 and interleukin-8 levels in the lower chamber whereas no tumor necrosis factor was detected. Overall, this study showed that direct exposure of HUVECs to MWCNTs was associated with oxidative stress and monocyte adhesion and the presence of PA increased the adhesion when exposed to NM400.

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Section: Discussionmentioning

confidence: 99%

Monocyte adhesion induced by multi-walled carbon nanotubes and palmitic acid in endothelial cells and alveolar–endothelial co-cultures

et al. 2015

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“…Six biological replicates of each SAEC and HMVEC monoculture exposure condition were collected for microarray analysis. Both SAEC and HMVEC in monoculture have been shown to interact with MWCNT (Pacurari et al 2012; Snyder-Talkington et al 2013b). …”

Section: Methodsmentioning

confidence: 99%

Multi-walled carbon nanotube-induced gene expression in vitro: Concordance with in vivo studies

Snyder-Talkington¹,

Dong²,

Zhao³

et al. 2015

Toxicology

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There is a current interest in reducing the in vivo toxicity testing of nanomaterials in animals by increasing toxicity testing using in vitro cellular assays; however, toxicological results are seldom concordant between in vivo and in vitro models. This study compared global multi-walled carbon nanotube (MWCNT)-induced gene expression from human lung epithelial and microvascular endothelial cells in monoculture and coculture with gene expression from mouse lungs exposed to MWCNT. Using a cutoff of 10% false discovery rate and 1.5 fold change, we determined that there were more concordant genes (gene expression both up- or downregulated in vivo and in vitro) expressed in both cell types in coculture than in monoculture. When reduced to only those genes involved in inflammation and fibrosis, known outcomes of in vivo MWCNT exposure, there were more disease-related concordant genes expressed in coculture than monoculture. Additionally, different cellular signaling pathways are activated in response to MWCNT dependent upon culturing conditions. As coculture gene expression better correlated with in vivo gene expression, we suggest that cellular cocultures may offer enhanced in vitro models for nanoparticle risk assessment and the reduction of in vivo toxicological testing.

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“…These findings show that MWCNT-7 exposure engages cells to control their DNA integrity and growth, and that cell growth may be activated by the overexpression of genes that activate growth and the underexpression of genes which normally exert a negative control. Snyder-Talkington et al (2013b) reported alterations of genes associated to cellular growth and proliferation in telomerase immortalized-human small airway epithelial cells (SAEC) after in vitro exposure to MWCNT-7. Several of these genes, were upregulated such as V-Akt murine thymoma viral oncogene homolog 1 ( AKT1 ), which is activated by growth factors; vascular endothelial growth factor A ( VEGFA ); smoothened, frizzled class receptor ( SMO ) and Sonic Hedgehog ( SHH ), involved in hedgehog signaling and carcinogenesis; as well as downregulation of B-cell CLL/lymphoma 2 ( BCL2 ), an apoptosis inhibitor.…”

Section: Genotoxicitymentioning

confidence: 99%

“…This may suggest a growth advantage of MWCNTs-exposed SAEC. Moreover, these genes have a role in lung adenocarcinoma (Snyder-Talkington et al (2013b). Early passage immortalized cells are used in these studies to analyze genetic changes in a cell population in response to a toxic agent; these results are reliable because early passage immortalized cells have a stable genotype.…”

Section: Genotoxicitymentioning

confidence: 99%

Evaluating the mechanistic evidence and key data gaps in assessing the potential carcinogenicity of carbon nanotubes and nanofibers in humans

Kuempel

Jaurand

Møller

et al. 2016

Critical Reviews in Toxicology

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In an evaluation of carbon nanotubes (CNTs) for the IARC Monograph 111, the Mechanisms Subgroup was tasked with assessing the strength of evidence on the potential carcinogenicity of CNTs in humans. The mechanistic evidence was considered to be not strong enough to alter the evaluations based on the animal data. In this paper, we provide an extended, in-depth examination of the in vivo and in vitro experimental studies according to current hypotheses on the carcinogenicity of inhaled particles and fibers. We cite additional studies of CNTs that were not available at the time of the IARC meeting in October 2014, and extend our evaluation to include carbon nanofibers (CNFs). Finally, we identify key data gaps and suggest research needs to reduce uncertainty. The focus of this review is on the cancer risk to workers exposed to airborne CNT or CNF during the production and use of these materials. The findings of this review, in general, affirm those of the original evaluation on the inadequate or limited evidence of carcinogenicity for most types of CNTs and CNFs at this time, and possible carcinogenicity of one type of CNT (MWCNT-7). The key evidence gaps to be filled by research include: investigation of possible associations between in vitro and early-stage in vivo events that may be predictive of lung cancer or mesothelioma, and systematic analysis of dose–response relationships across materials, including evaluation of the influence of physico-chemical properties and experimental factors on the observation of nonmalignant and malignant endpoints.

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Systematic Analysis of Multiwalled Carbon Nanotube-Induced Cellular Signaling and Gene Expression in Human Small Airway Epithelial Cells

Cited by 32 publications

References 33 publications

Monocyte adhesion induced by multi-walled carbon nanotubes and palmitic acid in endothelial cells and alveolar–endothelial co-cultures

Monocyte adhesion induced by multi-walled carbon nanotubes and palmitic acid in endothelial cells and alveolar–endothelial co-cultures

Multi-walled carbon nanotube-induced gene expression in vitro: Concordance with in vivo studies

Evaluating the mechanistic evidence and key data gaps in assessing the potential carcinogenicity of carbon nanotubes and nanofibers in humans

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