In the absence of UCP1-mediated diet-induced thermogenesis, obesity is augmented even in the obesity-resistant 129S mouse strain.

Ineke H N Luijten,Gabriella Von Essen,Barbara Cannon,Helena M Feldmann,Jan Nedergaard

doi:10.1152/ajpendo.00020.2019

Ineke H N Luijten, Gabriella Von Essen + Show 3 more

Open Access

https://doi.org/10.1152/ajpendo.00020.2019

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Abstract

The attractive tenet that recruitment and activation of brown adipose tissue (BAT) and uncoupling protein 1 (UCP1) could counteract the development of obesity and its comorbidities in humans has been experimentally corroborated mainly by experiments demonstrating that UCP1-ablated mice on a C57Bl/6 background (exempt from thermal stress) become more obese when fed a high-fat diet. However, concerns may be raised that this outcome of UCP1 ablation is restricted to this very special inbred and particularly obesity-prone mouse strain. Therefore, we have examined to which degree UCP1 ablation has similar metabolic effects in a mouse strain known to be obesity resistant: the 129S strain. For this, male 129S2/sv or 129SV/Pas mice and corresponding UCP1-knockout mice were fed chow or a high-fat or a cafeteria diet for 4 wk. The absence of UCP1 augmented obesity (weight gain, body fat mass, %body fat, fat depot size) in high-fat diet- and cafeteria-fed mice, with a similar or lower food intake, indicating that, when present, UCP1 indeed decreases metabolic efficiency. The increased obesity was due to a decrease in energy expenditure. The consumption of a high-fat or cafeteria diet increased total BAT UCP1 protein levels in wild-type mice, and correspondingly, high-fat diet and cafeteria diet-fed mice demonstrated increased norepinephrine-induced oxygen consumption. There was a positive correlation between body fat and total BAT UCP1 protein content. No evidence for diet-induced adrenergic thermogenesis was found in UCP1-ablated mice. Thus, the obesity-reducing effect of UCP1 is not restricted to a particular, and perhaps not representative, mouse strain.

Highlights

The tenet that recruitment and activation of brown adipose tissue (BAT) and uncoupling protein 1 (UCP1), the thermogenic protein located in BAT mitochondria, could provide a mechanism to decrease metabolic efficiency and counteract weight gain is attractive
We demonstrate that the obesityreducing effect of UCP1 is observable in an obesityprone mouse strain and in mouse strains that are recognized to be obesity resistant
We find that metabolic effects of UCP1 may even be observable when no obesity is induced, in that case observable rather as the ability to retain body energy reserves based on a lowered energy intake

Summary

Introduction

The tenet that recruitment and activation of brown adipose tissue (BAT) and uncoupling protein 1 (UCP1), the thermogenic protein located in BAT mitochondria, could provide a mechanism to decrease metabolic efficiency and counteract weight gain is attractive This tenet had already been implied in 1979 by Rothwell and Stock [21], direct experimental evidence for a significant role for UCP1 in counteracting obesity has been limited to the metabolic consequences of ablation of UCP1. A corresponding question is whether UCP1 is the only mediator of diet-induced thermogenesis or whether other mechanisms are present in other less obesityprone strains Such data are important to allow for possible translation of UCP1 effects to human conditions, as metabolic effects of UCP1 restricted to a single obesity-prone mouse strain would hardly be transferable to humans

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