Title (eng)
The role of microRNA in the regulation of hepatic metabolism and energy-expensive processes in the hibernating dormouse
Author
W. Aline Ingelson-Filpula
Hanane Hadj-Moussa
Fabrice Bertile
Caroline Habold
Kenneth B. Storey
Abstract (eng)
The garden dormouse (Eliomys quercinus) is a fat-storing mammal that undergoes annual periods of hibernation to mitigate the effects of food scarcity, low ambient temperatures, and reduced photoperiod that characterize winter. Like other hibernating species, this animal suppresses its metabolic rate by downregulating nonessential genes and processes in order to prolong available energy stores and limit waste accumulation throughout the season. MicroRNAs (miRNAs) are short, single-stranded, noncoding RNAs that bind to mRNA and mediate post-transcriptional suppression, making miRNA ideal for modulating widespread changes in gene expression, including global downregulation typified by metabolic rate depression. Using next-generation sequencing, we analyzed an RNA-seq dataset to determine which miRNAs are differentially regulated during hibernation in the dormouse liver. We found that the expression of 19 miRNAs was altered during hibernation; however, only one major miRNA (miR-34a-5p) remained significantly downregulated after correcting for false discovery rate. Gene Ontology, KEGG Pathway Analysis, and DIANA-miRPath predicted that energy metabolism, nuclear-related functions such as histone binding, chromatin- and chromosomal binding, and the cell cycle are processes that may be differentially regulated during hibernation due to miRNA regulation. Taken together, our data suggest that miRNA influence appears to be strongly directed toward suppressing energy-intensive processes in the nucleus hence contributing to extend the animal's endogenous fuel reserves for the duration of hibernation.
Keywords (eng)
MicroRNAs GeneticsMicroRNAs MetabolismAnimalsHibernation GeneticsLiver MetabolismEnergy MetabolismMyoxidae GeneticsMyoxidae MetabolismGene Expression RegulationMaleGene Expression Profiling
Type (eng)
Language
[eng]
Persistent identifier
Is in series
Title (eng)
Cryobiology
Volume
118
ISSN
1090-2392
Issued
2025
Number of pages
11
Publication
Elsevier
Version type (eng)
Date issued
2025
Access rights (eng)
License
Rights statement (eng)
Copyright © 2024 The Authors
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DOI
https://phaidra.vetmeduni.ac.at/o:4001
https://doi.org/10.1016/j.cryobiol.2024.105191 - Content
- DetailsObject typePDFDocumentFormatapplication/pdfCreated02.04.2025 09:10:20 UTC
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