INRAE, LPGP, Fish Physiology and Genomics, F-35000, Rennes, France.
INRAE, Univ. Pau & Pays Adour, E2S UPPA, NUMEA, 64310, Saint-Pée-sur-Nivelle, France.
BMC Biol. 2021 Nov 16;19(1):235. doi: 10.1186/s12915-021-01163-5.
Circulating miRNAs (c-miRNAs) are found in most, if not all, biological fluids and are becoming well-established non-invasive biomarkers of many human pathologies. However, their features in non-pathological contexts and whether their expression profiles reflect normal life history events have received little attention, especially in non-mammalian species. The aim of the present study was to investigate the potential of c-miRNAs to serve as biomarkers of reproductive and metabolic states in fish.
The blood plasma was sampled throughout the reproductive cycle of female rainbow trout subjected to two different feeding regimes that triggered contrasting metabolic states. In addition, ovarian fluid was sampled at ovulation, and all samples were subjected to small RNA-seq analysis, leading to the establishment of a comprehensive miRNA repertoire (i.e., miRNAome) and enabling subsequent comparative analyses to a panel of RNA-seq libraries from a wide variety of tissues and organs. We showed that biological fluid miRNAomes are complex and encompass a high proportion of the overall rainbow trout miRNAome. While sharing a high proportion of common miRNAs, the blood plasma and ovarian fluid miRNAomes exhibited strong fluid-specific signatures. We further revealed that the blood plasma miRNAome significantly changed depending on metabolic and reproductive states. We subsequently identified three evolutionarily conserved muscle-specific miRNAs or myomiRs (miR-1-1/2-3p, miR-133a-1/2-3p, and miR-206-3p) that accumulated in the blood plasma in response to high feeding rates, making these myomiRs strong candidate biomarkers of active myogenesis. We also identified miR-202-5p as a candidate biomarker for reproductive success that could be used to predict ovulation and/or egg quality.
Together, these promising results reveal the high potential of c-miRNAs, including evolutionarily conserved myomiRs, as physiologically relevant biomarker candidates and pave the way for the use of c-miRNAs for non-invasive phenotyping in various fish species.
循环 miRNA(c-miRNA)存在于大多数(如果不是全部)生物体液中,并且已成为许多人类病理的成熟非侵入性生物标志物。然而,它们在非病理情况下的特征以及它们的表达谱是否反映正常的生命史事件,这些问题还很少受到关注,尤其是在非哺乳动物物种中。本研究的目的是研究循环 miRNA 作为鱼类生殖和代谢状态生物标志物的潜力。
在两种不同的饲养方案下,雌性虹鳟鱼的生殖周期中采集了血液血浆,这两种方案触发了不同的代谢状态。此外,在排卵时采集了卵巢液,并对所有样本进行了小 RNA-seq 分析,从而建立了全面的 miRNA 谱(即 miRNAome),并随后进行了比较分析,分析对象为来自各种组织和器官的大量 RNA-seq 文库。结果表明,生物体液的 miRNAome 很复杂,包含了虹鳟鱼 miRNAome 的很大一部分。尽管血液血浆和卵巢液 miRNAome 具有很高的共同 miRNA 比例,但它们也具有强烈的液体特异性特征。我们进一步揭示了血液血浆 miRNAome 会根据代谢和生殖状态发生显著变化。随后,我们鉴定了三个进化上保守的肌肉特异性 miRNA 或 myomiRs(miR-1-1/2-3p、miR-133a-1/2-3p 和 miR-206-3p),它们在高喂养率下会在血液血浆中积累,使这些 myomiRs 成为活跃肌发生的候选生物标志物。我们还鉴定了 miR-202-5p 作为生殖成功的候选生物标志物,可用于预测排卵和/或卵质量。
这些有前景的结果表明,c-miRNA 具有很高的潜力,包括进化上保守的 myomiRs,可以作为生理相关的生物标志物候选物,并为各种鱼类物种的非侵入性表型分析铺平道路。
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