Transcriptome Analysis of Hypothalamic Gene Expression during Daily Torpor in Djungarian Hamsters ( Phodopus sungorus )

Animals living at high or temperate latitudes are challenged by extensive changes in environmental conditions over seasons. Djungarian hamsters ( ) are able to cope with extremely cold ambient temperatures and food scarcity in winter by expressing spontaneous daily torpor. Daily torpor is a circadia...

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Bibliographic Details
Published in:Frontiers in neuroscience 2017-03, Vol.11, p.122-122
Main Authors: Cubuk, Ceyda, Kemmling, Julia, Fabrizius, Andrej, Herwig, Annika
Format: Article
Language:English
Subjects:
Animal behavior
Animal welfare
Arousal
Circadian rhythm
Circadian rhythms
Collagen
Energy expenditure
Energy metabolism
Environmental conditions
Experiments
Gene expression
Hibernation
Hypothalamus
Hypothermia
Metabolism
Neuroscience
Phodopus sungorus
Physiology
Rodents
Testosterone
Torpor
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Summary:Animals living at high or temperate latitudes are challenged by extensive changes in environmental conditions over seasons. Djungarian hamsters ( ) are able to cope with extremely cold ambient temperatures and food scarcity in winter by expressing spontaneous daily torpor. Daily torpor is a circadian controlled voluntary reduction of metabolism that can reduce energy expenditure by up to 65% when used frequently. In the past decades it has become more and more apparent, that the hypothalamus is likely to play a key role in regulating induction and maintenance of daily torpor, but the molecular signals, which lead to the initiation of daily torpor, are still unknown. Here we present the first transcriptomic study of hypothalamic gene expression patterns in Djungarian hamsters during torpor entrance. Based on Illumina sequencing we were able to identify a total number of 284 differentially expressed genes, whereby 181 genes were up- and 103 genes down regulated during torpor entrance. The 20 most up regulated group contained eight genes coding for structure proteins, including five collagen genes, and , as well as the procoagulation factor . In a proximate approach we investigated these genes by quantitative real-time PCR (qPCR) analysis over the circadian cycle in torpid and normothermic animals at times of torpor entrance, mid torpor, arousal and post-torpor. These qPCR data confirmed up regulation of , and during torpor entrance, but a decreased mRNA level for all other investigated time points. This suggests that gene expression of structure genes as well as the procoagulation factor are specifically initiated during the early state of torpor and provides evidence for protective molecular adaptions in the hypothalamus of Djungarian hamsters including changes in structure, transport of biomolecules and coagulation.
ISSN:1662-4548
1662-453X
1662-453X
DOI:10.3389/fnins.2017.00122