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Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests

With the outbreak of COVID-19, increasingly more attention has been paid to the effects of environmental factors on the immune system of organisms, because environmental pollutants may act in synergy with viruses by affecting the immunity of organisms. The immune system is a developing defense syste...

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Autores principales: Wang, Xinge, Li, Na, Ma, Mei, Han, Yingnan, Rao, Kaifeng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9819277/
https://www.ncbi.nlm.nih.gov/pubmed/36612599
http://dx.doi.org/10.3390/ijerph20010273
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author Wang, Xinge
Li, Na
Ma, Mei
Han, Yingnan
Rao, Kaifeng
author_facet Wang, Xinge
Li, Na
Ma, Mei
Han, Yingnan
Rao, Kaifeng
author_sort Wang, Xinge
collection PubMed
description With the outbreak of COVID-19, increasingly more attention has been paid to the effects of environmental factors on the immune system of organisms, because environmental pollutants may act in synergy with viruses by affecting the immunity of organisms. The immune system is a developing defense system formed by all metazoans in the course of struggling with various internal and external factors, whose damage may lead to increased susceptibility to pathogens and diseases. Due to a greater vulnerability of the immune system, immunotoxicity has the potential to be the early event of other toxic effects, and should be incorporated into environmental risk assessment. However, compared with other toxicity endpoints, e.g., genotoxicity, endocrine toxicity, or developmental toxicity, there are many challenges for the immunotoxicity test of environmental pollutants; this is due to the lack of detailed mechanisms of action and reliable assay methods. In addition, with the strong appeal for animal-free experiments, there has been a significant shift in the toxicity test paradigm, from traditional animal experiments to high-throughput in vitro assays that rely on cell lines. Therefore, there is an urgent need to build high-though put immunotoxicity test methods to screen massive environmental pollutants. This paper reviews the common methods of immunotoxicity assays, including assays for direct immunotoxicity and skin sensitization. Direct immunotoxicity mainly refers to immunosuppression, for which the assays mostly use mixed immune cells or isolated single cells from animals with obvious problems, such as high cost, complex experimental operation, strong variability and so on. Meanwhile, there have been no stable and standard cell lines targeting immune functions developed for high-throughput tests. Compared with direct immunotoxicity, skin sensitizer screening has developed relatively mature in vitro assay methods based on an adverse outcome pathway (AOP), which points out the way forward for the paradigm shift in toxicity tests. According to the experience of skin sensitizer screening, this paper proposes that we also should seek appropriate nodes and establish more complete AOPs for immunosuppression and other immune-mediated diseases. Then, effective in vitro immunotoxicity assay methods can be developed targeting key events, simultaneously coordinating the studies of the chemical immunotoxicity mechanism, and further promoting the paradigm shift in the immunotoxicity test.
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spelling pubmed-98192772023-01-07 Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests Wang, Xinge Li, Na Ma, Mei Han, Yingnan Rao, Kaifeng Int J Environ Res Public Health Review With the outbreak of COVID-19, increasingly more attention has been paid to the effects of environmental factors on the immune system of organisms, because environmental pollutants may act in synergy with viruses by affecting the immunity of organisms. The immune system is a developing defense system formed by all metazoans in the course of struggling with various internal and external factors, whose damage may lead to increased susceptibility to pathogens and diseases. Due to a greater vulnerability of the immune system, immunotoxicity has the potential to be the early event of other toxic effects, and should be incorporated into environmental risk assessment. However, compared with other toxicity endpoints, e.g., genotoxicity, endocrine toxicity, or developmental toxicity, there are many challenges for the immunotoxicity test of environmental pollutants; this is due to the lack of detailed mechanisms of action and reliable assay methods. In addition, with the strong appeal for animal-free experiments, there has been a significant shift in the toxicity test paradigm, from traditional animal experiments to high-throughput in vitro assays that rely on cell lines. Therefore, there is an urgent need to build high-though put immunotoxicity test methods to screen massive environmental pollutants. This paper reviews the common methods of immunotoxicity assays, including assays for direct immunotoxicity and skin sensitization. Direct immunotoxicity mainly refers to immunosuppression, for which the assays mostly use mixed immune cells or isolated single cells from animals with obvious problems, such as high cost, complex experimental operation, strong variability and so on. Meanwhile, there have been no stable and standard cell lines targeting immune functions developed for high-throughput tests. Compared with direct immunotoxicity, skin sensitizer screening has developed relatively mature in vitro assay methods based on an adverse outcome pathway (AOP), which points out the way forward for the paradigm shift in toxicity tests. According to the experience of skin sensitizer screening, this paper proposes that we also should seek appropriate nodes and establish more complete AOPs for immunosuppression and other immune-mediated diseases. Then, effective in vitro immunotoxicity assay methods can be developed targeting key events, simultaneously coordinating the studies of the chemical immunotoxicity mechanism, and further promoting the paradigm shift in the immunotoxicity test. MDPI 2022-12-24 /pmc/articles/PMC9819277/ /pubmed/36612599 http://dx.doi.org/10.3390/ijerph20010273 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Review
Wang, Xinge
Li, Na
Ma, Mei
Han, Yingnan
Rao, Kaifeng
Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests
title Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests
title_full Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests
title_fullStr Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests
title_full_unstemmed Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests
title_short Immunotoxicity In Vitro Assays for Environmental Pollutants under Paradigm Shift in Toxicity Tests
title_sort immunotoxicity in vitro assays for environmental pollutants under paradigm shift in toxicity tests
topic Review
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9819277/
https://www.ncbi.nlm.nih.gov/pubmed/36612599
http://dx.doi.org/10.3390/ijerph20010273
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