Risk Characterization and Probabilistic Concentration–Response Modeling of Complex Environmental Mixtures Using New Approach Methodologies (NAMs) Data from Organotypic
            <i>in Vitro</i>
            Human Stem Cell Assays

Hsieh, Nan‐Hung; Chen, Zunwei; Rusyn, Ivan; Chiu, Weihsueh A.

doi:10.1289/ehp7600

Cited by 44 publications

(41 citation statements)

References 54 publications

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“…The dose determination for in vitro and in vivo experiments should be considered in future studies. Mathematical modeling has been attempted to bridge the gap between in vivo and in vitro doses 63 - 65 .…”

Section: Discussionmentioning

confidence: 99%

Enhanced ASGR2 by microplastic exposure leads to resistance to therapy in gastric cancer

Kim¹,

Zaheer²,

Choi³

et al. 2022

Theranostics

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Background: Microplastics (MPs) are a new global environmental threat. Previously, we showed the biodistribution of MPs using [ 64 Cu] polystyrene (PS) and PET in mice. Here, we aimed to identify whether PS exposure has malignant effects on the stomach and induces resistance to therapy. Methods: BALB/c nude mice were fed 1.72 × 10 4 particles/mL of MP. We investigated PS accumulation in the stomach using radioisotope-labeled and fluorescent-conjugated PS. Further, we evaluated whether PS exposure induced cancer stemness and multidrug resistance, and whether it affected tumor development, tumor growth, and survival rate in vivo using a 4-week PS-exposed NCI-N87 mouse model. Using RNA-Seq analysis, we analyzed whether PS exposure induced gene expression changes in gastric tissues of mice. Results: PET imaging results showed that a single dose of [ 64 Cu]-PS remained for 24 h in the mice stomach. The 4-week daily repetitive dose of fluorescent conjugated PS was deposited in the gastric tissues of mice. When PS was exposed, a 2.9-fold increase in migration rate was observed for NCI-N87 cells. Immunocytochemistry results showed decreased E-cadherin and increased N-cadherin expression, and flow cytometry, qPCR, and western blot analysis indicated a 1.9-fold increase in N-cadherin expression after PS exposure . Further, PS-induced multidrug resistance to bortezomib, paclitaxel, gefitinib, lapatinib, and trastuzumab was observed in the NCI-N87 mouse model due to upregulated CD44 expression. RNA-seq results identified increased asialoglycoprotein receptor 2 ( ASGR2 ) expression after PS exposure, and ASGR2 knockdown decreased cell proliferation, migration, invasion, and drug resistance. Conclusion: We demonstrated that ASGR2 enhanced cancer hallmarks on PS exposure and induced resistance to chemo- and monoclonal antibody-therapy. Our preclinical findings may provide an incentive for further epidemiological studies on the role of MP exposure and its association with gastric cancer.

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Section: Discussionmentioning

confidence: 99%

Enhanced ASGR2 by microplastic exposure leads to resistance to therapy in gastric cancer

Kim¹,

Zaheer²,

Choi³

et al. 2022

Theranostics

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“…Based on this study, exposures resulting from background emissions are likely in the low-dose range and will stay in this range unless incremental emission causes an increase of orders of magnitude higher. Therefore, it is vital to better understand how to characterize human risks for low-dose exposure, which the development of New Approach Methodologies could offer assistance in [1,[41][42][43][44].…”

Section: Discussionmentioning

confidence: 99%

Human Chemical Exposure from Background Emissions in the United States and the Implication for Quantifying Risks from Marginal Emission Increase

2021

Toxics

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The linear dose–response relationship has long been assumed in assessments of health risk from an incremental chemical emission relative to background emissions. In this study, we systematically examine the relevancy of such an assumption with real-world data. We used the reported emission data, as background emissions, from the 2017 U.S. National Emission Inventory for 95 organic chemicals to estimate the central tendencies of exposures of the general U.S. population. Previously published nonlinear dose–response relationships for chemicals were used to estimate health risk from exposure. We also explored and identified four intervals of exposure in which the nonlinear dose–response relationship may be linearly approximated with fixed slopes. Predicted rates of exposure to these 95 chemicals are all within the lowest of the four intervals and associated with low health risk. The health risk may be overestimated if a slope on the dose–response relationship extrapolated from toxicological assays based on high response rates is used for a marginal increase in emission not substantially higher than background emissions. To improve the confidence of human health risk estimates for chemicals, future efforts should focus on deriving a more accurate dose–response relationship at lower response rates and interface it with exposure assessments.

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“…We selected these cell types because many of the environmental chemicals expected to be present in tested sediments are known to be associated with hepatotoxicity, neurotoxicity, cardiotoxicity, and vascular toxicity (see literature review of the effects of Superfund priority list chemicals on different organs in [ 20 ]). We have published methods for using iPSC-derived cells [ 21 , 22 , 23 , 24 , 25 , 26 , 27 ] to assess the toxicity of the individual chemicals [ 20 , 28 , 29 , 30 , 31 , 32 ], whole mixtures [ 11 , 16 ], and complex substances [ 33 , 34 ]. The reasons we chose iPSC-derived cells are because: (i) these cells are more physiological than immortalized cell lines and can be derived for different tissues/organs [ 35 ]; (ii) they can be obtained from the same individual(s) to enable highly reproducible experiments [ 36 ]; (iii) despite some limitations with the degree of maturation, these cells compare well to primary cells in terms of their function and expected organ-specific toxicity [ 35 , 37 , 38 ]; and (iv) a small number of iPSC-derived cell types can be as informative about hazard and safety margins as the larger set of in vitro models [ 33 ], or many ToxCast bioassays [ 20 ].…”

Section: Methodsmentioning

confidence: 99%

“…Similarly, biological assays show the potential to facilitate identification of mixtures that may pose human and/or environmental health risks [ 11 , 12 , 13 ]. Finally, computational approaches have also been developed, many of them based on utilizing the information from both exposure characterization and bioactivity measurements, to identify the chemicals of concern in mixtures that may be the drivers to the overall bioactivity [ 14 , 15 , 16 ].…”

Section: Introductionmentioning

confidence: 99%

Potential Human Health Hazard of Post-Hurricane Harvey Sediments in Galveston Bay and Houston Ship Channel: A Case Study of Using In Vitro Bioactivity Data to Inform Risk Management Decisions

Chen

Jang

Kaihatu

et al. 2021

IJERPH

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Natural and anthropogenic disasters may be associated with redistribution of chemical contaminants in the environment; however, current methods for assessing hazards and risks of complex mixtures are not suitable for disaster response. This study investigated the suitability of in vitro toxicity testing methods as a rapid means of identifying areas of potential human health concern. We used sediment samples (n = 46) from Galveston Bay and the Houston Ship Channel (GB/HSC) areas after hurricane Harvey, a disaster event that led to broad redistribution of chemically-contaminated sediments, including deposition of the sediment on shore due to flooding. Samples were extracted with cyclohexane and dimethyl sulfoxide and screened in a compendium of human primary or induced pluripotent stem cell (iPSC)-derived cell lines from different tissues (hepatocytes, neuronal, cardiomyocytes, and endothelial) to test for concentration-dependent effects on various functional and cytotoxicity phenotypes (n = 34). Bioactivity data were used to map areas of potential concern and the results compared to the data on concentrations of polycyclic aromatic hydrocarbons (PAHs) in the same samples. We found that setting remediation goals based on reducing bioactivity is protective of both “known” risks associated with PAHs and “unknown” risks associated with bioactivity, but the converse was not true for remediation based on PAH risks alone. Overall, we found that in vitro bioactivity can be used as a comprehensive indicator of potential hazards and is an example of a new approach method (NAM) to inform risk management decisions on site cleanup.

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Risk Characterization and Probabilistic Concentration–Response Modeling of Complex Environmental Mixtures Using New Approach Methodologies (NAMs) Data from Organotypic in Vitro Human Stem Cell Assays

Cited by 44 publications

References 54 publications

Enhanced ASGR2 by microplastic exposure leads to resistance to therapy in gastric cancer

Enhanced ASGR2 by microplastic exposure leads to resistance to therapy in gastric cancer

Human Chemical Exposure from Background Emissions in the United States and the Implication for Quantifying Risks from Marginal Emission Increase

Potential Human Health Hazard of Post-Hurricane Harvey Sediments in Galveston Bay and Houston Ship Channel: A Case Study of Using In Vitro Bioactivity Data to Inform Risk Management Decisions

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