期刊
出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.cbpb.2022.110754
关键词
Metabolism; Mitochondria; mitomiR; microRNA; Epigenetics; Environmental contaminants
资金
- Natural Sciences and Engineering Research Council Discovery Program [RGPIN-2015-05643]
- Canadian Foundation for Innovation John R. Evans Leaders Fund [34317]
- Ontario Early Research Award [ER18-14-254]
Wastewater effluent is a stressor for aquatic organisms' metabolism. This study identified the presence of miRNA in darter mitochondria and predicted their role in regulating translation of mitochondrial genes. Experimental results confirmed the relationship between miRNA abundance and cytochrome c oxidase activity in darters.
Wastewater effluent is a metabolic stressor to aquatic organisms, though the mechanisms regulating metabolic rate in fish are not fully understood. Changes in metabolism may be regulated by microRNA (miRNA), small RNA molecules that post-transcriptionally regulate target mRNA translation in fish. Nuclear encoded miRNA are present in mammalian mitochondria where they regulate translation of mitochondrial genes, namely subunits for oxidative phosphorylation complexes; though this mechanism has not been identified in fish. This study aimed to identify if miRNA are present in darter (Etheostoma spp.) mitochondria, and if the metabolic stress occurring in darters in the Grand River, Waterloo, is partly regulated by miRNAs supressing translation of target mitochon-drial genes. Three species of darters (E. caeruleum; E. nigrum; E. flabellare) were collected from upstream and downstream of the Waterloo wastewater treatment plant, and qPCR analysis confirmed the presence of four miRNA bioinformatically predicted to target mitochondrial mRNAs within the mitochondria, namely let-7a, miR-1, miR-122 and miR-20. E. caeruleum collected from downstream had lower cytochrome c oxidase activity, with a respective higher miR-1 abundance in the mitochondria, while E. nigrum had both a higher miR-20 abundance and cytochrome c oxidase activity downstream. E. flabellare was the only species that exhibited a lower miR-122 abundance downstream, despite no difference in cytochrome c oxidase activity between sites. Overall, this study confirmed the presence of miRNA within the mitochondria of daters, predicted a relationship between miR-1, and miR-20 abundance and cytochrome c oxidase activity, and identified one sex-specific miRNA, miR-20.
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