2004
DOI: 10.1016/j.physbeh.2004.07.028
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Adaptive thermogenesis and uncoupling proteins: a reappraisal of their roles in fat metabolism and energy balance

Abstract: After decades of controversies about the quantitative importance of autoregulatory adjustments in energy expenditure in weight regulation, there is now increasing recognition that even subtle variations in thermogenesis could, in dynamic systems and over the long term, be important in determining weight maintenance in some and obesity in others. The main challenge nowadays is to provide a mechanistic explanation for the role of adaptive thermogenesis in attenuating and correcting deviations of body weight and … Show more

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Cited by 79 publications
(55 citation statements)
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“…These findings are clearly not in accord with a role for altered skeletal muscle proton leak in the mechanisms by which thermogenesis is suppressed. In addition, no change in UCP3 in SS or IMF muscle mitochondria was found during semistarvation or refeeding, confirming the dissociation between UCP3 and the regulation of mitochondrial proton leak (25,26). The present data on proton leak are much more consistent with an increasingly advocated role for proton leak in the control of mitochondrial ROS.…”
Section: Skeletal Muscle Mitochondria and Catch-up Fatsupporting
confidence: 82%
“…These findings are clearly not in accord with a role for altered skeletal muscle proton leak in the mechanisms by which thermogenesis is suppressed. In addition, no change in UCP3 in SS or IMF muscle mitochondria was found during semistarvation or refeeding, confirming the dissociation between UCP3 and the regulation of mitochondrial proton leak (25,26). The present data on proton leak are much more consistent with an increasingly advocated role for proton leak in the control of mitochondrial ROS.…”
Section: Skeletal Muscle Mitochondria and Catch-up Fatsupporting
confidence: 82%
“…It is noteworthy the significant increase (285%) in UCP3 mRNA levels occurring in this depot in leptin-treated rats under HF-diet feeding. UCP3 has been proposed to have a primary function in the regulation of the use of lipids as fuel substrate, 36 then the increased transcription of this gene may be indicative of increased fatty acid oxidation.…”
Section: Discussionmentioning
confidence: 99%
“…To date, however, the molecular mechanisms underlying thermogenesis in tissues other than the brown adipose tissue remains elusive, amid continuing controversies concerning the physiological roles of UCP2 and UCP3 (homologs of UCP1) as effectors of skeletal muscle thermogenesis. 76,77 The energy-dissipating substrate cycle that links glucose and lipid metabolism to thermogenesis in skeletal muscle (depicted in Figure 3) provides a novel molecular mechanism of thermogenesis through which this abovementioned neuroendocrine networkFoperating through insulin, leptin and catecholaminesFoverlaps in the regulation of body weight, blood glucose and intramyocellular lipids, and hence in the protection against obesity, hyperglycemia and lipotoxicity. Perturbations in this neuroendocrine network (and intracellular signaling system) that exerts control over this substrate cycling may thus be early events that lead to intramyocellular lipid accumulation, and hence to the consequential effects of this state of lipotoxicity on the onset and exacerbation of insulin resistance.…”
Section: Interdependency Between Glucose Lipids and Thermogenesismentioning
confidence: 99%