Gene expression profiling during hibernation in the European hamster

Célia Gautier,Dominique Ciocca,Sophie-Pénélope Guénin,Clémence Dupré,Jean A Boutin,Valérie Simonneaux,Albane Gaudeau,Damien Valour,Isabelle Riest-Fery,Giulia Lizzo,Olivier Nosjean,Jean-Philippe Stephan,Chantal Brasseur,Béatrice Bothorel

doi:10.1038/s41598-018-31506-2

Abstract

Hibernation is an exceptional physiological response to a hostile environment, characterized by a seasonal period of torpor cycles involving dramatic reductions of body temperature and metabolism, and arousal back to normothermia. As the mechanisms regulating hibernation are still poorly understood, here we analysed the expression of genes involved in energy homeostasis, torpor regulation, and daily or seasonal timing using digital droplet PCR in various central and peripheral tissues sampled at different stages of torpor/arousal cycles in the European hamster. During torpor, the hypothalamus exhibited strongly down-regulated gene expression, suggesting that hypothalamic functions were reduced during this period of low metabolic activity. During both torpor and arousal, many structures (notably the brown adipose tissue) exhibited altered expression of deiodinases, potentially leading to reduced tissular triiodothyronine availability. During the arousal phase, all analysed tissues showed increased expression of the core clock genes Per1 and Per2. Overall, our data indicated that the hypothalamus and brown adipose tissue were the tissues most affected during the torpor/arousal cycle, and that clock genes may play critical roles in resetting the body’s clocks at the beginning of the active period.

Highlights

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The principal component analysis (PCA) of these ddPCR data revealed that the major sources of variance were associated with the organ effect which groups were separated in the space drawn by the two first components (Dim1&2), explaining respectively 40.7% and 11.4% of variance; as shown in the Fig. 1
With the objective to better understand the mechanisms which may control hibernation, we examined the molecular signatures of a set of genes related to daily and seasonal timing, torpor regulation, and energy homeostasis, from eight different organs, in association with three hibernation phases during a winter-like heterotherm period in the well-established hibernating species, the European hamster

Summary

Introduction

HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The hypothalamus exhibited strongly down-regulated gene expression, suggesting that hypothalamic functions were reduced during this period of low metabolic activity. Hibernators are divided into two categories based on their energy saving strategy: fat-storing species (e.g. the marmot, Marmota marmota) exhibit an extensive fattening period prior to hibernation, while food-storing species (e.g. the European hamster, Cricetus cricetus) hoard food in a burrow and feed between torpor bouts.

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