Mitochondrial response and resilience to anthropogenic chemicals during embryonic development.

Mitochondria are integral to maintaining cellular homeostasis. Optimum mitochondrial function is critical during embryonic development, as they play a key role in early signaling cascades and epigenetic programming, in addition to sustaining an adequate energy production. Mitochondria are sensitive targets of environmental toxins, potentially even at levels considered safe under current regulatory limits. Most mitochondrial analyses have focused only on chemical exposure effects in vitro or in isolated mitochondria. However, comparatively little is known about mitochondrial effects of chemical exposure during vertebrate embryogenesis, especially during the recovery phase following a chemical insult. Here, we used the zebrafish (Danio rerio), in a 96-well plate system, to examine mitochondrial effects of 24 chemicals including pharmaceuticals, industrial chemicals, and agrochemicals. We used oxygen consumption rate (OCR) during embryogenesis as a proxy for mitochondrial function. Embryonic OCR (eOCR) was measured in clean egg water immediately following 24 h of chemical exposure and subsequently for an additional 8 h. Each chemical, dependent upon the concentration, resulted in a unique eOCR response profile. While some eOCR effects were persistent or recoverable over time, some effects were only detected several hours after being removed from the exposure. Non-monotonic dose response effects as well as mitochondrial hormesis were also detected following exposure to some chemicals. Collectively, our study shows that mitochondrial response to chemicals are highly dynamic and warrant careful consideration when determining mitochondrial toxicity of a given chemical.

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Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.