AI Article Synopsis
- Evolutionary thinking is reshaping how we understand health and disease, yet there's a lack of communication between evolutionary biologists and toxicologists regarding developmental pathways and human birth defects.
- To enhance the identification of developmental toxicants, the authors suggest using evolutionary genetics to refine experimental designs and data analysis across in vitro and whole-organism models.
- The paper discusses the importance of multiscale systems modeling, phylogenetic analysis, and comparative bioinformatics in understanding differences between species and humans, aiming to improve developmental toxicity assessments and underscore the interconnectedness of evolutionary biology and health outcomes.
Article Abstract
Evolutionary thinking continues to challenge our views on health and disease. Yet, there is a communication gap between evolutionary biologists and toxicologists in recognizing the connections among developmental pathways, high-throughput screening, and birth defects in humans. To increase our capability in identifying potential developmental toxicants in humans, we propose to apply evolutionary genetics to improve the experimental design and data interpretation with various in vitro and whole-organism models. We review five molecular systems of stress response and update 18 consensual cell-cell signaling pathways that are the hallmark for early development, organogenesis, and differentiation; and revisit the principles of teratology in light of recent advances in high-throughput screening, big data techniques, and systems toxicology. Multiscale systems modeling plays an integral role in the evolutionary approach to cross-species extrapolation. Phylogenetic analysis and comparative bioinformatics are both valuable tools in identifying and validating the molecular initiating events that account for adverse developmental outcomes in humans. The discordance of susceptibility between test species and humans (ontogeny) reflects their differences in evolutionary history (phylogeny). This synthesis not only can lead to novel applications in developmental toxicity and risk assessment, but also can pave the way for applying an evo-devo perspective to the study of developmental origins of health and disease.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5829367 | PMC |
| http://dx.doi.org/10.1016/j.reprotox.2017.03.003 | DOI Listing |
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