Uncoupling Protein 1 Is Necessary for Norepinephrine-Induced Glucose Utilization in Brown Adipose Tissue

Inokuma, Ken-ichi; Ogura-Okamatsu, Yuko; Toda, Chitoku; Kimura, Kazuhiro; Yamashita, Hitoshi; Saito, Masayuki

doi:10.2337/diabetes.54.5.1385

Cited by 162 publications

(159 citation statements)

References 36 publications

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“…However, our results indicate that β-adrenoceptors activate AMPK independently of activation of UCP1 (but that there is a basal difference between cells isolated from Ucp1 +/+ and Ucp1 −/− animals that we are currently unable to explain but is clearly independent of UCP1 production). The differences between the results of Inokuma et al [48] and the present results are most likely to be a consequence of the different systems used. Cells in culture have not previously been exposed to a sympathetic stimulus, whereas this is probably the case in intact mice at 26°C.…”

Section: Discussioncontrasting

confidence: 57%

“…It was recently suggested that sympathetically stimulated glucose utilisation in brown adipose tissue is due to the serial activation of UCP1 and AMPK [48]. However, our results indicate that β-adrenoceptors activate AMPK independently of activation of UCP1 (but that there is a basal difference between cells isolated from Ucp1 +/+ and Ucp1 −/− animals that we are currently unable to explain but is clearly independent of UCP1 production).…”

Section: Discussioncontrasting

confidence: 55%

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β-Adrenoceptors, but not α-adrenoceptors, stimulate AMP-activated protein kinase in brown adipocytes independently of uncoupling protein-1

et al. 2005

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Aims/hypothesis: Brown adipocytes provide a potentially important model system for understanding AMP-activated protein kinase (AMPK) regulation, where adrenergic stimulation leads to mitochondrial uncoupling through uncoupling protein-1 (UCP1) activity. AMPK is a sensor of energy homeostasis and has been implicated in glucose and lipid metabolism in several insulin-sensitive tissues. The aim of this study was to characterise the potential role of AMPK in adrenergically mediated glucose uptake and to find out whether UCP1 is involved in the adrenergic activation of AMPK. Methods: We used primary brown adipocytes differentiated in culture and measured AMPK phosphorylation and glucose uptake following adrenergic activation. Results: Treatment of adipocytes with noradrenaline (norepinephrine) caused phosphorylation of AMPK via β-adrenoceptors and not α 1 -or α 2 -adrenoceptors. This effect was not β 3 -adrenoceptor specific, since responses remained intact in adipocytes from β 3 -adrenoceptor knock-out mice. These effects were also mimicked by forskolin and cAMP analogues. Treatment of cells with adenine 8-β-Darabinofuranoside, an AMPK inhibitor, partially blocked β-adrenoceptor-mediated increases in glucose uptake. Brown adipocytes are characterised by the production of UCP1, which can uncouple the mitochondria. Using adipocytes from Ucp1 +/+ and Ucp1 −/− mice, we showed that noradrenaline-mediated phosphorylation of AMPK does not require the presence or activity of UCP1. Conclusions/interpretation: These results suggest a pathway where increases in cAMP mediated by β-adrenoceptors leads to activation of AMPK in brown adipocytes, which contributes in part to β-adrenoceptor-mediated increases in glucose uptake, an effect independent of the presence or function of UCP1.

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Section: Discussioncontrasting

confidence: 57%

Section: Discussioncontrasting

confidence: 55%

β-Adrenoceptors, but not α-adrenoceptors, stimulate AMP-activated protein kinase in brown adipocytes independently of uncoupling protein-1

et al. 2005

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“…As a consequence, the fatty acid composition of BAT triglycerides alters rapidly to closely reflect the composition of dietary lipids (12) indicative of rapid cellular uptake of serum FFAs. While mechanisms underlying enhanced glucose uptake by BAT following adrenergic stimulation have been studied intensely in the past (13)(14)(15), little is known regarding protein-mediated fatty acid uptake by this tissue.…”

mentioning

confidence: 99%

Fatty Acid Transport Protein 1 Is Required for Nonshivering Thermogenesis in Brown Adipose Tissue

et al. 2006

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Nonshivering thermogenesis in brown adipose tissue (BAT) generates heat through the uncoupling of mitochondrial ␤-oxidation from ATP production. The principal energy source for this process is fatty acids that are either synthesized de novo in BAT or are imported from circulation. How uptake of fatty acids is mediated and regulated has remained unclear. Here, we show that fatty acid transport protein (FATP)1 is expressed on the plasma membrane of BAT and is upregulated in response to cold stimuli, concomitant with an increase in the rate of fatty acid uptake. In FATP1-null animals, basal fatty acid uptake is reduced and remains unchanged following cold exposure. As a consequence, FATP1 knockout (KO) animals display smaller lipid droplets in BAT and fail to defend their core body temperature at 4°C, despite elevated serum free fatty acid levels. Similarly, FATP1 is expressed by the BATderived cell line HIB-1B upon differentiation, and both fatty acid uptake and FATP1 protein levels are rapidly elevated following isoproterenol stimulation. Stimulation of fatty uptake by isoproterenol required both protein kinase A and mitogen-activated kinase signaling and is completely dependent on FATP1 expression, as small-hairpin RNA-mediated knock down of FATP1 abrogated the effect. Diabetes 55:3229 -3237, 2006

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“…On the other hand, acute blockage of a-adrenergic signaling resulted in stimulation of AMPK activity, mediated by alteration in AMPK a Thr 172 phosphorylation, which could be secondary to diminished oxygen consumption in BAT (Pulinilkunnil et al 2011). Acute stimulation of b-adrenergic signaling in mice also resulted in increased AMPK activity in BAT, leading to increased glucose uptake with both effects abolished in UCP1 knock-out mice (Inokuma et al 2005). In brown adipocytes differentiated in vitro, b-adrenergic stimulation was also found to increase AMPK phosphorylation and b-adrenergically mediated glucose uptake required AMPK.…”

Section: Ampk Function In Adipose Tissuementioning

confidence: 99%

Augmenting energy expenditure by mitochondrial uncoupling: a role of AMP-activated protein kinase

et al. 2011

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Strategies to prevent and treat obesity aim to decrease energy intake and/or increase energy expenditure. Regarding the increase of energy expenditure, two key intracellular targets may be considered (1) mitochondrial oxidative phosphorylation, the major site of ATP production, and (2) AMP-activated protein kinase (AMPK), the master regulator of cellular energy homeostasis. Experiments performed mainly in transgenic mice revealed a possibility to ameliorate obesity and associated disorders by mitochondrial uncoupling in metabolically relevant tissues, especially in white adipose tissue (WAT), skeletal muscle (SM), and liver. Thus, ectopic expression of brown fat-specific mitochondrial uncoupling protein 1 (UCP1) elicited major metabolic effects both at the cellular/tissue level and at the whole-body level. In addition to expected increases in energy expenditure, surprisingly complex phenotypic effects were detected. The consequences of mitochondrial uncoupling in WAT and SM are not identical, showing robust and stable obesity resistance accompanied by improvement of lipid metabolism in the case of ectopic UCP1 in WAT, while preservation of insulin sensitivity in the context of high-fat feeding represents the major outcome of muscle UCP1 expression. These complex responses could be largely explained by tissue-specific activation of AMPK, triggered by a depression of cellular energy charge. Experimental data support the idea that (1) while being always activated in response to mitochondrial uncoupling and compromised intracellular energy status in general, AMPK could augment energy expenditure and mediate local as well as whole-body effects; and (2) activation of AMPK alone does not lead to induction of energy expenditure and weight reduction.

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Uncoupling Protein 1 Is Necessary for Norepinephrine-Induced Glucose Utilization in Brown Adipose Tissue

Cited by 162 publications

References 36 publications

β-Adrenoceptors, but not α-adrenoceptors, stimulate AMP-activated protein kinase in brown adipocytes independently of uncoupling protein-1

β-Adrenoceptors, but not α-adrenoceptors, stimulate AMP-activated protein kinase in brown adipocytes independently of uncoupling protein-1

Fatty Acid Transport Protein 1 Is Required for Nonshivering Thermogenesis in Brown Adipose Tissue

Augmenting energy expenditure by mitochondrial uncoupling: a role of AMP-activated protein kinase

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