Negative correlation between milk production and brown adipose tissue gene expression in lactating mice

Król, Elżbieta; Martín, Samuel; Huhtaniemi, Ilpo; Douglas, Alex; Speakman, John R.

doi:10.1242/jeb.061382

Cited by 41 publications

(36 citation statements)

References 57 publications

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“…In the prolactin group this was significantly lower than that in the saline group. This reduction is consistent with the model suggested by Król et al (Król et al, 2011), where gene expression in BAT during lactation appeared to be responsive to both prolactin and leptin levels. Normally in lactation the reduced heat production by BAT is more than compensated for by the heat production associated with milk synthesis.…”

Section: Discussionsupporting

confidence: 91%

Limits to sustained energy intake XIX: A test of the heat dissipation limitation hypothesis in Mongolian gerbils (Meriones unguiculatus)

Yang

Wang

et al. 2013

Journal of Experimental Biology

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SUMMARY We evaluated factors limiting lactating Mongolian gerbils (Meriones unguiculatus) at three temperatures (10, 21 and 30°C−1 less energy as milk at peak lactation than those allocated to 10 or 21°C, with no difference between the latter groups. On day 14 of lactation, the litter masses at 10 and 30°C were 12.2 and 9.3g lower than those at 21°C, respectively. Lactating gerbils had higher thermal conductance of the fur and lower UCP-1 levels in brown adipose tissue than non-reproductive gerbils, independent of ambient temperature, suggesting that they were attempting to avoid heat stress. Thermal conductance of the fur was positively related to circulating prolactin levels. We implanted non-reproductive gerbils with mini-osmotic pumps that delivered either prolactin or saline. Prolactin did not influence thermal conductance of the fur, but did reduce physical activity and UCP-1 levels in brown adipose tissue. Transferring lactating gerbils from warm to hot conditions resulted in reduced milk production, consistent with the heat dissipation limit theory, but transferring them from warm to cold conditions did not elevate milk production, consistent with the peripheral limitation hypothesis, and placed constraints on pup growth. Supplementary material available online at

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Section: Discussionsupporting

confidence: 91%

Limits to sustained energy intake XIX: A test of the heat dissipation limitation hypothesis in Mongolian gerbils (Meriones unguiculatus)

Yang

Wang

et al. 2013

Journal of Experimental Biology

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“…In this scenario, BAT represents a potential driving force for the evolution of endothermy. This role of BAT during reproduction is in contrast to modern eutherian mammals with higher body temperatures, where BAT is switched off, possibly to avoid overheating (Trayhurn et al 1982;Trayhurn 1983;Trayhurn and Wusteman 1987;Król et al 2011;Yang et al 2013). However, the notion that the endothermic temperature of the tenrec may resemble optimal temperatures for gamete incubation may also be extrapolated from other vertebrate species, e.g.…”

Section: The Potential Role For Ancient Bat In Reproductionmentioning

confidence: 92%

Brown adipose tissue: physiological function and evolutionary significance

2015

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In modern eutherian (placental) mammals, brown adipose tissue (BAT) evolved as a specialized thermogenic organ that is responsible for adaptive non-shivering thermogenesis (NST). For NST, energy metabolism of BAT mitochondria is increased by activation of uncoupling protein 1 (UCP1), which dissipates the proton motive force as heat. Despite the presence of UCP1 orthologues prior to the divergence of teleost fish and mammalian lineages, UCP1's significance for thermogenic adipose tissue emerged at later evolutionary stages. Recent studies on the presence of BAT in metatherians (marsupials) and eutherians of the afrotherian clade provide novel insights into the evolution of adaptive NST in mammals. In particular studies on the 'protoendothermic' lesser hedgehog tenrec (Afrotheria) suggest an evolutionary scenario linking BAT to the onset of eutherian endothermy. Here, we review the physiological function and distribution of BAT in an evolutionary context by focusing on the latest research on phylogenetically distinct species.

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“…Alternatively, or additionally, the elevation in T b might be associated indirectly with the hormonal secretions that induce and maintain milk production such as prolactin (Svennersten-Sjaunja and Olsson, 2005) and other hormonal changes that are linked to lactation such as the reduced levels of circulating leptin (Cui et al, 2011;Król et al, 2011). In fact, prolactin appears to be strongly positively correlated with T b during exertional heat stress (Pitsiladis et al, 2002;Wright et al, 2012), although in this case it appears the causal relationship is that elevated temperature stimulates prolactin release (Low et al, 2005) and not the reverse.…”

Section: Physical Activity and Body Temperature In Lactating Micementioning

confidence: 99%

Limits to sustained energy intake XX: body temperatures and physical activity of female mice during lactation

Gamo

Troup

Mitchell

et al. 2013

Journal of Experimental Biology

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SUMMARYLactating animals consume greater amounts of food than non-reproductive animals, but energy intake appears to be limited in late lactation. The heat dissipation limit theory suggests that the food intake of lactating mice is limited by the capacity of the mother to dissipate heat. Lactating mice should therefore have high body temperatures (T b ), and changes in energy intake during lactation should be reflected by variation in T b . To investigate these predictions, 26 mice (Mus musculus) were monitored daily throughout lactation for food intake, body mass, litter size and litter mass. After weaning, 21days postpartum, maternal food intake and body mass were monitored for another 10days. Maternal activity and T b were recorded every minute for 23h a day using implanted transmitters (vital view). Energy intake increased to a plateau in late lactation (days 13-17). Daily gain in pup mass declined during this same period, suggesting a limit on maternal energy intake. Litter size and litter mass were positively related to maternal energy intake and body mass. Activity levels were constantly low, and mice with the largest increase in energy intake at peak lactation had the lowest activity. T b rose sharply after parturition and the circadian rhythm became compressed within a small range. T b during the light period increased considerably (1.1°C higher than in baseline), and lactating mice faced chronic hyperthermia, despite their activity levels in lactation being approximately halved. Average T b increased in relation to energy intake as lactation progressed, but there was no relationship between litter size or litter mass and the mean T b at peak lactation. These data are consistent with the heat dissipation limit theory, which suggests performance in late lactation is constrained by the ability to dissipate body heat. Supplementary material available online at

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Negative correlation between milk production and brown adipose tissue gene expression in lactating mice

Cited by 41 publications

References 57 publications

Limits to sustained energy intake XIX: A test of the heat dissipation limitation hypothesis in Mongolian gerbils (Meriones unguiculatus)

Limits to sustained energy intake XIX: A test of the heat dissipation limitation hypothesis in Mongolian gerbils (Meriones unguiculatus)

Brown adipose tissue: physiological function and evolutionary significance

Limits to sustained energy intake XX: body temperatures and physical activity of female mice during lactation

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