Housing temperature influences exercise training adaptations in mice

Raun, Steffen H.; Henríquez‐Olguín, Carlos; Karavaeva, Iuliia; Ali, Mona; Møller, Lisbeth L. V.; Kot, Witold; Castro‐Mejía, Josué L.; Nielsen, Dennis Sandris; Gerhart-Hines, Zachary; Richter, Erik A.; Sylow, Lykke

doi:10.1038/s41467-020-15311-y

Cited by 57 publications

(59 citation statements)

References 85 publications

(115 reference statements)

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“…In line with recent data obtained in mice at thermoneutrality (Raun et al, ), we found that exercise alone did not cause a significant response of the rat microbiome at thermoneutrality. Regarding the food withdrawal‐related compositional changes in the stool microbiome, at the genus level, most upregulated are Peptoclostridium, associated with ketone body synthesis and degradation, and Parabacteroides, associated with anti‐inflammatory effects.…”

Section: Discussionsupporting

confidence: 93%

“…However, up to now, studies on metabolic effects of fasting/food withdrawal and exercise in rodents, either including single exercise bouts (Zheng et al, ) or long‐term protocols based on caloric restriction/intermittent fasting and exercise (Marosi et al, ), are performed at temperatures inducing cold‐stress (20°C–22°C). Importantly, recent studies on mice showed that several metabolic effects of exercise are altered when animals are housed at thermoneutrality compared to room temperature (22°C), including markers of mitochondrial biogenesis and adipose browning (Aldiss et al, ; McKie et al, ), insulin sensitivity, and microbiome adaptation (Raun et al, ). The metabolic responses to food withdrawal at thermoneutrality were previously studied by our group in rats, both at 48 hr by transcriptional profiling (De lange et al, ), and over a period spanning 0 to 48 hr, with the responses resulting to be rapid and at times transient (De Lange et al, ).…”

Section: Introductionmentioning

confidence: 99%

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Exercise with food withdrawal at thermoneutrality impacts fuel use, the microbiome, AMPK phosphorylation, muscle fibers, and thyroid hormone levels in rats

et al. 2020

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Exercise under fasting conditions induces a switch to lipid metabolism, eliciting beneficial metabolic effects. Knowledge of signaling responses underlying metabolic adjustments in such conditions may help to identify therapeutic strategies. Therefore, we studied the effect of mild exercise on rats submitted to food withdrawal at thermoneutrality (28°C) for 3 days. Animals were housed at thermoneutrality rather than the standard housing temperature (22°C) to avoid beta‐adrenergic signaling responses that themselves affect metabolism and well‐being. Quantitative analysis of multi‐organ mRNA levels, myofibers, and serum metabolites shows that this protocol (a) boosts fat oxidation in muscle and liver, (b) reduces lipogenesis and increases gluconeogenesis in liver, (c) increases serum acylcarnitines (especially C4OH) and ketone bodies and the use of the latter as fuel in muscle, (d) increases Type I myofibers, and (e) is associated with an increased thyroid hormone uptake and metabolism in muscle. In addition, stool microbiome DNA analysis revealed that food withdrawal dramatically alters the presence of bacterial genera associated with ketone metabolism. Taken together, this protocol induces a drastic switch toward increased lipid and ketone metabolism compared to exercise or food withdrawal alone, which may prove beneficial and may involve local thyroid hormones, which may be regarded as exercise mimetics.

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Section: Discussionsupporting

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Exercise with food withdrawal at thermoneutrality impacts fuel use, the microbiome, AMPK phosphorylation, muscle fibers, and thyroid hormone levels in rats

et al. 2020

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“…We believe so, but to detect clear effects of different compounds, we need to compare differences between the room temperature and cold challenge, since many adaptive mechanisms should exist, as thermoneutrality is vital for survival. Performing exams in only one of these conditions could lead to misinterpretations of the role of BAT and possible recruiters on thermogenesis and there is clear evidence that small differences in laboratory temperatures could lead to very different results in different animal models [ 24 , 25 , 27 – 29 ]. For example, if the tests were performed only after the cold challenge, we could conclude that no differences were seen between the groups, despite large differences in UCP-1mRNA expression.…”

Section: Discussionmentioning

confidence: 99%

Melatonin deficiency decreases brown adipose tissue acute thermogenic capacity of in rats measured by 18F-FDG PET

Halpern

Mancini

Mendes

et al. 2020

Diabetol Metab Syndr

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Objective Melatonin has been shown to increase brown adipose tissue (BAT) mass, which can lead to important metabolic effects, such as bodyweight reduction and glycemic improvement. However, BAT mass can only be measured invasively and. The gold standard for non-invasive measurement of BAT activity is positron emission tomography with 2-deoxy-2-[fluorine-18] fluoro-d-glucose (18F-FDG PET). There is no study, to our knowledge, that has evaluated if melatonin influences BAT activity, measured by this imaging technique in animals. Methods Three experimental groups of Wistar rats (control, pinealectomy, and pinealectomy replaced with melatonin) had an 18F-FDG PET performed at room temperature and after acute cold exposure. The ratio of increased BAT activity after cold exposure/room temperature was called “acute thermogenic capacity” (ATC) We also measured UCP-1 mRNA expression to correlate with the 18F-FDG PET results. Results Pinealectomy led to reduced acute thermogenic capacity, compared with the other groups, as well as reduced UCP1 mRNA expression. Conclusion Melatonin deficiency impairs BAT response when exposed to acute cold exposure. These results can lead to future studies of the influence of melatonin on BAT, in animals and humans, without needing an invasive evaluation of BAT.

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“…This study has a potential limitation: Recent work (McKie et al, 2019;Raun et al, 2020) has demonstrated that housing mice at subthermal neutral conditions, that is, room temperature, rather than at thermal neutrality can stimulate increases in mitochondrial and thermogenic proteins in adipose tissues with endurance exercise training. Housing temperature (22-24°C) may have impacted our data because the thermoneutral zone of Wistar rats is in the range of 29.5-30.5°C (Romanovsky, Ivanov, & Shimansky, 2002).…”

Section: Discussionmentioning

confidence: 99%

Effects of electrical stimulation‐induced resistance exercise training on white and brown adipose tissues and plasma meteorin‐like concentration in rats

et al. 2020

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Chronic endurance exercise training induces morphological and metabolic alterations including mitochondrial biogenesis in white adipose tissue (WAT) and brown adipose tissue (BAT) in rodents. A myokine called meteorin‐like (Metrnl) is associated with morphological and metabolic adaptation and increased in blood after acute resistance exercise. However, the effects of chronic resistance exercise training (RT), which aims to increase muscle mass and strength, on WAT and BAT are unclear. Therefore, we aimed to clarify the effects of RT on morphological and metabolic parameters in WAT and BAT and on plasma Metrnl concentrations. We applied electrical stimulation to both legs of rats as RT three times a week for 4 weeks. RT reduced adipocyte size in subcutaneous WAT but induced no changes in mitochondrial and thermogenesis proteins. In BAT, peroxisome proliferator‐activated receptor gamma coactivator‐1 alpha (PGC‐1α) protein levels and mitochondrial content markers were significantly higher in the RT group compared with the control group. A significant positive correlation was found between the expression of PGC‐1α in BAT and plasma Metrnl concentrations. These results suggest that plasma Metrnl is associated with PGC‐1α and mitochondrial biogenesis in BAT. This study describes a potential role of RT in preventing metabolic diseases via altering WAT and BAT and increasing plasma Mertnl concentrations.

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Housing temperature influences exercise training adaptations in mice

Cited by 57 publications

References 85 publications

Exercise with food withdrawal at thermoneutrality impacts fuel use, the microbiome, AMPK phosphorylation, muscle fibers, and thyroid hormone levels in rats

Exercise with food withdrawal at thermoneutrality impacts fuel use, the microbiome, AMPK phosphorylation, muscle fibers, and thyroid hormone levels in rats

Melatonin deficiency decreases brown adipose tissue acute thermogenic capacity of in rats measured by 18F-FDG PET

Effects of electrical stimulation‐induced resistance exercise training on white and brown adipose tissues and plasma meteorin‐like concentration in rats

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