Evolutionary survival strategies of the female giant panda: optimizing energy resources and expenditure prior to pregnancy by postponing corpus luteum reactivation

Wauters, Jella; Wilson, Kevin S.; Bouts, Tim; Vancsok, Catherine; Mulot, Baptiste; Leclerc, Antoine; Haapakoski, Marko; Kok, Jose; Kuehne, Ragnar; Ochs, Andreas; McNeilly, Alan S.; Rae, Michael T.; Andrew, Ruth; Duncan, W. Colin; Girling, Simon J.; Zhou, Quang; Li, Rengui; Zhou, Yingmin; Cai, Kailai; Liu, Yuliang; Hou, Rong; Valentine, Iain; Hildebrandt, Thomas B.; Li, Desheng; Vanhaecke, Lynn

doi:10.1101/2022.06.28.497916

Cited by 1 publication

(1 citation statement)

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“…Circulating miRNAs, including mir-200 family and miR-92, have long been proposed for use as cancer biomarkers 50–52 . The use of miRNAs as diapause biomarkers could provide a non-invasive way of diapause detection, particularly in wild species in which detection of diapause via hormonal measures is impractical or unreliable 53 .…”

Section: Discussionmentioning

confidence: 99%

Combinatorial microRNA activity is essential for the transition of pluripotent cells from proliferation into dormancy

Iyer,

Moyon,

Ringeling

et al. 2023

Preprint

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SUMMARYDormancy is a key feature of stem cell function in adult tissues as well as embryonic cells in the context of diapause. The establishment of dormancy is an active process that involves extensive transcriptional, epigenetic, and metabolic rewiring1,2. How these processes are coordinated to successfully transition cells to the resting dormant state remains unclear. Here we show that microRNA activity, which is otherwise dispensable for pre-implantation development, is essential for the adaptation of early mouse embryos to the dormant state of diapause. In particular, the pluripotent epiblast depends on miRNA activity, the absence of which results in loss of pluripotent cells. Through integration of high-sensitivity small RNA expression profiling of individual embryos and protein expression of miRNA targets with public data of protein-protein interactions, we constructed the miRNA-mediated regulatory network of mouse early embryos specific to diapause. We find that individual miRNAs contribute to the combinatorial regulation by the network and the perturbation of the network compromises embryo survival in diapause. Without miRNAs, nuclear and cytoplasmic bodies show aberrant expression, concurrent with splicing defects. We identified the nutrient-sensitive transcription factor TFE3 as an upstream regulator of diapause-specific miRNAs, linking cytoplasmic mTOR activity to nuclear miRNA biogenesis. Our results place miRNAs as a critical regulatory layer for the molecular rewiring of early embryos to establish dormancy.

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Section: Discussionmentioning

confidence: 99%