Affiliation:
1. School of Biological Resources and Food Engineering, Qujing Normal University, Qujing, 655011, China
2. School of Life Sciences, Yunnan Normal University, Kunming, 650500, China
Abstract
Abstract
To investigate the effect of low temperature on body mass, thermogenic activity, and Uncoupling protein-1 (UCP1) content of brown adipose tissue (BAT) in Chevrier’s field mouse (Apodemus chevrieri), 50 healthy adult mice with similar body mass were used in our experiment. They were divided into five groups of ten individuals as follows: a control group (0 d), where animals were maintained under 25 ± 1°C and a 12L:12D (light:dark, lights on 08:00) photoperiod; the other groups were maintained under 5 ± 1°C and a 12L:12D photoperiod for 7 d, 14 d, 21 d and 28 d, respectively. At the end of the experiment, the changes in body mass, resting metabolic rate (RMR), nonshivering thermogenesis (NST), BAT mass, mitochondrial protein (MP) content, cytochrome c oxidase (COX) activity, and UCP1 content were measured. The results showed that compared with the control group (0 d), the body mass of the cold acclimation groups decreased significantly. In contrast, RMR, NST, BAT mass, MP content, COX activity, and UCP1 content of the cold acclimation group increased significantly. After cold acclimation for 28 days, RMR increased by 89.4%, NST increased by 50.4%, BAT mass increased by 44.6%, and UCP1 content increased by 36.0%. The ratio of (NST − RMR)/RMR was 1.03 after seven days and then dropped to 0.59 on day 21, and remained at a steady level thereafter. Evidently, NST was significantly positively correlated with BAT mass and UCP1 content. The results indicated that under continuous cold exposure, A. chevrieri could take appropriate measures to reduce body mass, increase RMR, induce BAT tissue proliferation, and unregulated UCP1 expression, thereby enhancing BAT thermogenic activity to cope with a low-temperature environment. In the early stage of cold acclimation, NST was dominant in thermogenesis, but as time continued, it reduced. This may represent a unique energy adaptation strategy of small rodents originating from the north and spreading southward toward the Hengduan Mountain regions.
Funder
the Special Basic Cooperative Research Programs of Yunnan Provincial Undergraduate Universities’ Association
the Special Basic Cooperative Research Innovation Programs of Qujing Science and Technology Bureau & Qujing Normal University
Yunnan Fundamental Research Projects
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