Systematic analysis of circadian disrupting substances with a high-throughput zebrafish circadian behavior screening approach.

Jierong Chen, Jie Zhou, Minjia Li, Kun Zhang, Jiayin Dai, Yanbin Zhao

The Science of the total environment 2023 Dec 15

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Circadian rhythm aligns numerous biological functions in majority of animals. Aside from well-known external factors such as the light-dark cycle and temperature, circadian rhythm can also be regulated by rarely explored factors such as synthetic substances. Here, we established a circadian behavior screening approach utilizing zebrafish larvae model, which integrated high-throughput capabilities with automated batch processing. With this approach, we systematically analyzed the circadian disruptive effects of >60 synthetic substances commonly detected in aquatic environment by assessing both the circadian period length and amplitude of circadian behavior, with an exposure concentration set at 100 μg/L. Among tested substances, a series of circadian disrupting compounds (circadian disruptors) were identified. Several categories of the hit compounds can be recognized, such as phthalate (diisopentyl phthalate (DIPP), with 10.1 % and 49.6 % increases for circadian period length and amplitude, respectively), neuroactive substance (mirtazapine, with 10.6 % and 63.1 % increases, respectively), and biocides (thiamethoxam, with 100.3 % increase for amplitude). Among these compounds, DIPP increased circadian period length and amplitude with a high degree. Aside from DIPP, we further examined eleven other phthalates and demonstrated that benzyl butyl phthalate, diisobutyl phthalate and diisohexyl phthalate could also significantly increase the zebrafish circadian period length by 7.9 %, 3.7 % and 8.5 %, respectively. Collectively, the present findings substantiated the feasibility of this high throughput screening strategy for circadian disruptor's discovery and provided novel insights into understanding of the potential risks of synthetic substances. Copyright © 2023 Elsevier B.V. All rights reserved.

Citation

Jierong Chen, Jie Zhou, Minjia Li, Kun Zhang, Jiayin Dai, Yanbin Zhao. Systematic analysis of circadian disrupting substances with a high-throughput zebrafish circadian behavior screening approach. The Science of the total environment. 2023 Dec 15;904:167037