Increased alpha 1-adrenergic receptor density in brown adipose tissue of cold-acclimated rats and hamsters

REEP6 knockout leads to defective β-adrenergic signaling in adipocytes and promotes obesity-related metabolic dysfunction

INTRODUCTION

The mobilization and catabolism of lipid energy is a central function of adipocytes that is under the control of the β-adrenergic signaling pathway, and defects in β-adrenergic signaling in adipocytes have been linked to obesity and obesity-related metabolic diseases. Receptor expression-enhancing proteins (REEPs) are endoplasmic reticulum (ER) proteins that play critical roles in subcellular targeting of receptor signaling complexes. Examination of gene expression profiles indicates that, among REEPs expressed in adipocytes, REEP6 expression is uniquely upregulated by sympathetic nervous system activation, suggesting involvement in regulating adrenergic signal transduction.

OBJECTIVE

The aim of this study was to assess the contribution of REEP6 to the thermogenic activation of adipocytes and characterize the metabolic consequences of REEP6 deficiency in vivo.

METHODS

Expression levels of Reep6 in adipose tissue were examined by using public transcriptomic data and validated by Western blot and qPCR analyses. Adipocyte-specific regulatory roles of REEP6 were investigated in vitro in C3H10T1/2 adipocytes and in primary adipocytes obtained from REEP6 KO mice. Effects of in vivo REEP6 deficiency on energy expenditure were measured by indirect calorimetry. Mitochondrial content in adipose tissue was accessed by immunoblot, mitochondrial DNA analysis, and confocal and electron microscopy. Effects of REEP6 KO on obesity-induced metabolic dysfunction were tested in a high-fat diet-induced obesity mouse model by glucose tolerance test, Western blot, and histological analyses.

RESULTS

REEP6 expression is highly enriched in murine adipocytes and is sharply upregulated upon adipocyte differentiation and by cold exposure. Inactivation of REEP6 in mice increased adiposity, and reduced energy expenditure and cold tolerance. REEP6 KO severely reduced protein kinase A-mediated signaling in BAT and greatly reduced mitochondrial mass. The effect of REEP6 inactivation on diminished β-adrenergic signaling was reproduced in cultured adipocytes, indicating that this effect is cell-autonomous. REEP6 KO also suppressed expression of adenylate cyclase 3 (Adcy3) in brown adipose tissue and knockdown of REEP6 in adipocytes reduced targeting of ADCY3 to the plasma membrane. Lastly, REEP6 KO exacerbated high-fat diet-induced insulin resistance and inflammation in adipose tissue.

CONCLUSIONS

This study indicates that REEP6 plays an important role in β-adrenergic signal transduction in adipocytes involving the expression and trafficking of Adcy3. Genetic inactivation of REEP6 reduces energy expenditure, increases adiposity, and the susceptibility to obesity-related metabolic dysfunction.

Adrenergic receptor density in brown adipose tissue of active and hibernating hamsters and ground squirrels

The ligand-binding characteristics (B(max) and K(D)) of alpha(1)- and beta(1)/beta(2)-adrenoceptors were investigated in membranes prepared from brown adipose tissue (BAT) of warm-acclimated, cold-acclimated, hibernating and arousing ground squirrels (Spermophillus undulatus) and hamsters (Mesocricetus auratus) by specific binding of [(3)H]prazosin and [(3)H]CGP-12177, respectively. The physiological state did not change the affinity for the adrenoceptors in the BAT of ground squirrels and hamsters. There was a significant decrease in alpha(1)-receptor density in arousing ground squirrels and a significant decrease in beta(1)/beta(2) density in hibernating ground squirrels. The level of alpha(1)-receptors was in all conditions higher than that of beta(1)/beta(2) receptors. The results indicate a possible change in balance of adrenoceptor density in the processes of cold acclimation, hibernation and arousal. The balance between the various adrenoceptor subtypes may be important for the final effect of catecholamines in BAT in different physiological states.

Pharmacological characterization of alpha1- and beta-adrenergic synergism of 5'DII activity in rat brown adipocytes

The role of adrenoceptor subtypes was studied in rat brown adipose tissue (BAT). The type II 5'-deiodinase (5'DII) was activated in response to simultaneous stimulation by beta3- and alpha1-adrenergic agonists, BRL 37344 or CGP 12177, and cirazoline, in brown adipocytes. Inhibition of the alpha1- and beta-adrenergic phenylephrine-stimulated 5'DII activity was obtained by the alpha1-adrenergic antagonists in the order of prazosin >/= wb 4101 > 5-methylurapidil. In comparison, the binding of [3H]prazosin to rat BAT plasma membranes was inhibited by alpha1-adrenergic antagonists in the order of prazosin > WB 4101 = benoxathian > 5-methylurapidil. Although the order of the alpha1-adrenergic competition seemed to be rather typical for the alpha1B-adrenergic receptors, a molecular analysis on adrenoceptor mRNAs should be made to confirm the exact alpha1-adrenergic subtypes at the level of brown adipocytes, since the possibility of a mixture of different receptor subtypes in brown fat cells and/or tissue may interact with the pharmacological characterization. Thus, specific alpha1- and beta-adrenoceptor subtypes participate in the regulation of 5'DII activity in the rat brown adipocytes, and therefore, an impaired alpha1- and beta-adrenergic co-work may be involved in a defective BAT function, e.g., in obese Zucker rats, too. An interesting possibility is that the decreased number of alpha1-adrenoceptors in the BAT of obese Zucker rats is due to the decrease in the alpha1B-adrenoceptor subtype which would further be involved especially in the regulation of BAT 5'DII activity.

UCP1: the only protein able to mediate adaptive non-shivering thermogenesis and metabolic inefficiency

The uniqueness of UCP1 (as compared to UCP2/UCP3) is evident from expression analysis and ablation studies. UCP1 expression is positively correlated with metabolic inefficiency, being increased by cold acclimation (in adults or perinatally) and overfeeding, and reduced in fasting and genetic obesity. Such a simple relationship is not observable for UCP2/UCP3. Studies with UCP1-ablated animals substantiate the unique role of UCP1: the phenomenon of adaptive adrenergic non-shivering thermogenesis in the intact animal is fully dependent on the presence of UCP1, and so is any kind of cold acclimation-recruited non-shivering thermogenesis; thus UCP2/UCP3 (or any other proteins or metabolic processes) cannot substitute for UCP1 physiologically, irrespective of their demonstrated ability to show uncoupling in reconstituted systems or when ectopically expressed. Norepinephrine-induced thermogenesis in brown-fat cells is absolutely dependent on UCP1, as is the uncoupled state and the recoupling by purine nucleotides in isolated brown-fat mitochondria. Although very high UCP2/UCP3 mRNA levels are observed in brown adipose tissue of UCP1-ablated mice, there is no indication that the isolated brown-fat mitochondria are uncoupled; thus, high expression of UCP2/UCP3 does not necessarily confer to the mitochondria of a tissue a propensity for being innately uncoupled. Whereas the thermogenic effect of fatty acids in brown-fat cells is fully UCP1-dependent, this is not the case in brown-fat mitochondria; this adds complexity to the issues concerning the mechanisms of UCP1 function and the pathway from beta(3)-adrenoceptor stimulation to UCP1 activation and thermogenesis. In addition to amino acid sequences conserved in all UCPs as part of the tripartite structure, all UCPs contain certain residues associated with nucleotide binding. However, conserved amongst all UCP1s so far sequenced, and without parallel in all UCP2/UCP3, are two sequences: 144SHLHGIKP and the C-terminal sequence RQTVDC(A/T)T; these sequences may therefore be essential for the unique thermogenic function of UCP1. The level of UCP1 in the organism is basically regulated at the transcriptional level (physiologically probably mainly through the beta(3)-adrenoceptor/CREB pathway), with influences from UCP1 mRNA stability and from the delay caused by translation. It is concluded that UCP1 is unique amongst the uncoupling proteins and is the only protein able to mediate adaptive non-shivering thermogenesis and the ensuing metabolic inefficiency.

Noradrenaline induces brown adipocytes cell growth via beta-receptors by a mechanism dependent on ERKs but independent of cAMP and PKA

It has been well established that the key role of noradrenaline is the induction of uncoupling-protein-1 (UCP-1) expression, the unique marker of brown adipocytes. However, its implication on proliferation and the pathways involved are not as well characterized. By using rat fetal brown adipocytes as a model, we show that, although noradrenaline activates extracellular regulated kinases (ERKs) through beta-, alpha1-, and alpha2-receptors, only beta-receptors mediate cell growth by a mechanism that requires ERKs activation but is independent of cyclic-adenosine-monophosphate/protein kinase A (cAMP/PKA). Conversely, the cAMP/PKA cascade mediates noradrenaline-induced UCP-1 expression, whereas ERKs pathway attenuates thermogenic differentiation. On the other hand, alpha1- and alpha2-receptors have an antiproliferative effect that is enhanced by ERK inhibition.

A dual component analysis explains the distinctive kinetics of cAMP accumulation in brown adipocytes

The mechanism behind the distinctive non-Michaelis-Menten, bell-shaped kinetics of cAMP accumulation in brown adipocytes (which underlies the similar kinetics of UCP1 and beta(1)-adrenoreceptor gene expression) was investigated. A theoretical dual component analysis indicated that the observed dose-response curves could be constructed as the resultant of a stimulatory and an inhibitory component. Experimentally, inhibition of the alpha(1)-component of the norepinephrine response revealed the underlying existence of a much larger stimulatory beta(3)-component which displayed monophasic Michaelis-Menten kinetics. The inhibitory alpha(1)-component (which was also monophasic but had a 2-fold higher EC(50)) was mediated via an increase in [Ca(2+)](i); the protein kinase C pathway was not involved. The [Ca(2+)](i) increase which resulted in massive inhibition of cAMP accumulation was very low: <100 nM. The [Ca(2+)](i) signal stimulated a calmodulin-controlled phosphodiesterase, possibly PDE-1. The acquirement of this specific interaction pattern between beta- and alpha(1)-adrenergic stimulation was thus part of the differentiation program of the brown adipocytes. It was concluded that an array of synergistic or inhibitory alpha(1)/beta interactions occur in the adrenergic regulation of this cell type which is unique in its dependence upon adrenergic stimulation for cellular proliferation, differentiation, and metabolic function.

Uncoupling protein mRNA, mitochondrial GTP-binding, and T4 5'-deiodinase activity of brown adipose tissue in Daurian ground squirrel during hibernation and arousal

The mRNA level of uncoupling protein (UCP) specific for brown adipose tissue (BAT) in Daurian ground squirrel, was detected by using a [32P]-labeled oligonucleotide probe. The UCP concentration in mitochondria was indirectly determined by titration with its specific ligand [H3]-labeled GTP. Type II T4 5'-deiodinase of BAT was assayed concomitantly. We found two species of mRNA for UCP with lengths of about 1.9 and 1.5 kb, respectively, both occurring in almost the same concentration. UCP mRNA content was elevated significantly during hibernation, but the UCP concentration did not change compared with that of nonhibernating controls kept at room temperature. When hibernating squirrels were aroused, the UCP mRNA remained at the elevated level as during hibernation, but the UCP concentration increased in comparison with that of nonhibernating controls or during hibernating. Changes in T4 5'-deiodinase activity in BAT were similar to the variations of the UCP mRNA level. These results suggest that the activation of T4 5'-deiodinase in BAT may be an important factor for the up-regulation and maintenance of UCP mRNA content needed for the synthesis of sufficient UCP to acquire the thermogenic capacity for arousal from hibernation.

alpha1-Adrenergic stimulation potentiates the thermogenic action of beta3-adrenoreceptor-generated cAMP in brown fat cells

The relationship between cAMP levels and thermogenesis was investigated in brown fat cells from Syrian hamsters. Irrespective of whether the selective beta3-, beta2-, and beta1-agonists BRL 37344, salbutamol, and dobutamine or the physiological agonist norepinephrine was used to stimulate the cells, increases in cAMP levels were mediated via the beta3-receptor, as were the thermogenic effects. However, the relationship "thermogenesis per cAMP" was much lower for agents other than norepinephrine. Similarly, forskolin, although more potent than norepinephrine in elevating cAMP, was less potent in inducing thermogenesis. The selective alpha1-agonist cirazoline was in itself without effect on cAMP levels or thermogenesis, but when added to forskolin-stimulated cells, potentiated thermogenesis, up to the norepinephrine level, without affecting cAMP. This potentiation could not be inhibited by chelerythrine, but could be mimicked by Ca2+ ionophores. It was apparently not mediated via calmodulin-dependent protein kinase and was not an effect on mitochondrial respiratory control. The ability of all cAMP-elevating agents to induce thermogenesis in brown fat cells has earlier been interpreted to mean that it is only through the beta-receptors and the resulting increase in cAMP levels that thermogenesis is induced. However, it is here concluded that the thermogenic response to norepinephrine involves two interacting parts, one mediated via beta-receptors and cAMP and the other via alpha1-receptors and increases in cytosolic Ca2+ levels.

Temperature-dependent effects of alpha-adrenergic agonists and antagonists in the cold

This series of experiments examined whether temperature-dependent effects of the alpha-antagonists prazosin and yohimbine compromised their use as blockers of alpha-adrenergic agonist responses in cold-exposed rats. An operant leverpressing task was used to measure the demand for heat in a cold environment. The alpha 1-antagonist prazosin had modest effects, but the alpha 2-antagonist yohimbine was thermolytic in that it dose dependently increased operant responding but decreased posttest colonic temperature (Tc). These potent effects of the alpha 2-antagonist led to tests of the alpha 2-agonist clonidine. Clonidine increased operant responding for heat to an extraordinary degree, resulting in significant increases in posttest Tc. However, clonidine was found to be a hypothermic agent when tested in rats at 5 degrees C but denied the opportunity to increase body temperature by operant lever pressing, suggesting a central effect on the control of thermal balance. Measurement of changes in metabolic rate at 5 and 23 degrees C showed that yohimbine increased metabolism at 23 degrees C but decreased it in the cold. Prazosin had little effect on metabolism or Tc at either temperature. Prazosin inhibited the decrease in Tc induced by norepinephrine (NE), but had little effect on the lever-pressing response. Yohimbine had no significant antagonistic effect on NE-induced changes in lever-pressing behavior or posttest Tc, but neither did the thermolytic effects of yohimbine exacerbate those of NE. These results show that alpha-antagonist interactions with agonists can be complicated by temperature-dependent effects of each.

Effects of epinephrine on thermoregulatory behavior in lean and obese Zucker rats in the cold

This series of experiments examined whether epinephrine (EPI) produces the same thermoregulatory effects in the cold that have been reported for norepinephrine and isoproterenol. Lean and obese Zucker rats were trained to press a lever to activate infrared heat lamps in a cold (-8 degrees C) environment. Operant thermoregulatory behavior increased dose-dependently following EPI (0-100 micrograms/kg), but posttest colonic temperature (Tc) fell. Thermal balance calculations showed a substantial increase in net heat loss, more so in obese than lean animals. EPI is therefore thermolytic--i.e., disrupts thermal balance. A low dose (100 micrograms/kg) of the alpha-antagonist phentolamine produced a marked improvement in operant behavior, Tc, and thermal balance, whereas a comparable dose of the beta-antagonist propranolol had no beneficial effect. Increasing the dose of phentolamine worsened the responses with respect to the 100-micrograms/kg dose. The selective alpha 1-antagonist prazosin ameliorated the decrease in Tc induced by EPI but had little effect on operant behavior or thermal balance; the selective alpha 2-antagonist yohimbine had no effect on any parameter compared to EPI alone. These results suggest that the paradoxical effects of EPI in the cold are mediated by alpha-adrenoceptors, but definitive identification of the subclass of receptor involved cannot be determined.

Prolonged exposure of hamsters to cold changes the levels of G proteins in brown adipose tissue plasma membranes

The levels of G proteins in plasma membranes prepared from brown adipose tissue of control and cold-exposed hamsters were determined by quantitative immunoblotting and competitive ELISA. Prolonged (four weeks) exposure of hamsters to cold decreased significantly the total content of the alpha subunits of the stimulatory (Gs alpha) as well as inhibitory (Gi alpha (1,2)) G proteins. Interestingly, the reduction in the Gs alpha content was solely due to a large reduction in the content of the short (45 kDa) isoform of Gs alpha, while the level of the long (52 kDa) isoform of Gs alpha remained unchanged. The level of the beta subunit of G protein was decreased comparably to the reduction in the total content of the alpha subunits. Cold-induced alterations in the G protein network associated with plasma membranes of brown adipose tissue were accompanied by changed characteristics of AlF(4-)-sensitive adenylyl cyclase activity.

Cold-induced changes in brown adipose tissue thermogenic capacity of immunocompetent and immunodeficient hairless mice

Mild cold acclimation (22 degrees C, 3 weeks) of hairless mice was shown to increase 5-fold the brown adipose tissue uncoupling protein content in immunodeficient BALB/c nu/nu mice, but by only 2.3-fold in immunocompetent BFU mice. The difference in activation of brown adipose tissue thermogenic capacity was due to a 2-fold increase in the content of brown adipose tissue in nu/nu mice only, which was paralleled by an increase in brown adipose tissue protein but not DNA content. Likewise, only in nu/nu mice the cold acclimation increased the reaction of natural killer cells in blood and peritoneal exudate with a shift from spleen to lymph nodes and increased the phagocytic index. The results indicate that the immune system may influence the defence against cold at the level of brown adipose tissue thermogenesis.

Physiological desensitization of beta 3-adrenergic responses in brown fat cells: involvement of a postreceptor process

To investigate a possible physiological desensitization process for beta 3-adrenergic responses, the effect of cold acclimation of hamsters on adrenergically stimulated oxygen consumption of isolated brown fat cells was investigated. Cells were prepared from control and from cold-acclimated hamsters. In agreement with earlier findings, cells isolated from cold-acclimated hamsters responded to norepinephrine addition with a decreased sensitivity (approximately 10 times higher 50% effective concentration) and a decreased maximal rate of oxygen consumption compared with cells from control hamsters. When cells were stimulated with the general beta-adrenergic agonist isoprenaline or with the beta 3-selective agonists BRL-37344 or CGP-12177, a similarly desensitized response was observed, demonstrating that it was indeed a beta 3-adrenergic response that was functionally desensitized. However, when the mitochondria within the cells were directly stimulated with exogenous free fatty acids (palmitate or octanoate), no difference between cells from control and cold-acclimated animals was seen, indicating that a mediatory step must be desensitized. When the cells were stimulated with forskolin (to activate adenylyl cyclase) or with 8-bromoadenosine 3',5'-cyclic monophosphate, the desensitized response was still observed. At post-adenosine 3',5'-cyclic monophosphate levels, a desensitization was not evident. Cyclic nucleotide phosphodiesterase activity was increased in cells from cold-acclimated animals. It is therefore suggested that this increased activity of phosphodiesterase could be (at least partly) responsible for the physiologically induced desensitized responses observed here.(ABSTRACT TRUNCATED AT 250 WORDS)

Brown fat thermogenesis and exercise: two examples of physiological oxidative stress?

Both brown fat tissue (BAT) and skeletal muscle experience large increases of oxygen consumption and oxygen radical generation during activation. This, together with the relatively low activities of antioxidant enzymes in these two tissues and the high lipid content and free fatty acid liberation of BAT, can produce a physiological oxidative stress. Increases of in vivo or in vitro (BAT) lipid peroxidation have been described in these tissues after activation. They react to this oxidative stress in an adaptive way after chronic stimulation. Cold acclimation increases antioxidant enzymes, ascorbate, and especially reduced glutathione (GSH) in BAT. There is controversy about the variations of antioxidants in skeletal muscle after acute exercise. Nevertheless, exercise training seems to increase muscle antioxidant enzymes and GSH. Many reports show that vitamin E levels decrease in the muscle and increase in plasma during exercise. Studies of vitamin E deficiency and supplementation strongly suggest that this vitamin is of protective value during exercise.

Increased alpha 1-adrenoceptor density in brown adipose tissue indicates recruitment drive in hypothyroid rats

The effects of hypothyroidism on whole body thermogenesis, brown adipose tissue recruitment state, and alpha 1-adrenergic receptor density were investigated. Treatment of rats with methimazole for 4-5 wk led, as expected, to reduction of growth and resting metabolic rate. The thermogenic response to norepinephrine injection was practically abolished. Generally, only small effects of hypothyroidism on brown adipose tissue were observed: total protein content, mitochondrial GDP binding capacity, and total content of the uncoupling protein thermogenin were not altered. The density of beta-adrenergic receptors (estimated with [3H]CGP-12177 as a ligand) was also unchanged. However, the density of alpha 1-adrenergic receptors (estimated with [3H]prazosin) was markedly increased; in other physiological conditions, such an increase has been associated with an increased degree of recruitment of the tissue. These data indicate that brown adipose tissue in the subthermoneutral hypothyroid animal, probably due to homeostatic mechanisms, is exposed to an increased sympathetic stimulation, leading to an increased alpha 1-adrenoceptor density. However, other features of recruitment are only poorly induced, probably due to attenuation of the beta-adrenergic signaling mechanism. The increased alpha 1-adrenergic receptor density may be responsible for certain altered features of brown adipose tissue in hypothyroid animals, such as peroxisomal recruitment and perhaps also for maintenance of the thermogenin content. The results also indicate that the increased alpha 1-adrenergic density generally seen in recruitment would not result from chronic beta-adrenergic stimulation of the tissue but may be controlled via another regulatory pathway, e.g., via the alpha 1-adrenergic pathway itself.

Effect of thyroid status on catecholamine stimulation of thyroxine 5'-deiodinase in brown adipocytes

We examined type II 5'-iodothyronine deiodinase activation by adrenergic agonists in dispersed brown adipocytes from euthyroid and hypothyroid rats. In euthyroid cells, basal deiodinase activity was 30-100 fmol I-.h-1.10(6) cells-1 and increased four- to fivefold during exposure to norepinephrine, an effect that was enhanced by alprenolol. In cells from hypothyroid rats, norepinephrine caused a three- to fourfold greater deiodinase stimulation than occurred in euthyroid cells but alprenolol inhibited the response. In euthyroid cells, phenylephrine caused greater stimulation than did norepinephrine, but this was inhibited by alprenolol. Isoproterenol and 8-bromoadenosine 3',5'-cyclic monophosphate (8-BrcAMP) inhibited the phenylephrine response but were modestly stimulatory alone. Although both alpha 1- and beta-adrenergic agonists increased deiodinase activity modestly in hypothyroid cells, in combination they caused a marked synergistic stimulation. This synergism was induced by 8-BrcAMP and forskolin, as well as by isoproterenol. The stimulation of deiodinase in both cell types was due to an increase in Vmax without an alteration in the Km and required mRNA synthesis. The markedly greater deiodinase response of the hypothyroid brown adipocyte to catecholamines may serve to enhance the impaired thermogenic response of this tissue to cold exposure.

Comparison of the pharmacological profiles of adrenergic drugs (including BRL-agonists) at [3H]prazosin and [3H]CGP-12177 binding sites in brown adipose tissue

1. In order to determine the selectivity of classical and novel adrenergic agents for alpha 1- and beta-adrenergic receptors in brown adipose tissue, the ability of these agents to compete for binding sites labelled with [3H]prazosin and [3H]CGP-12177, respectively, was investigated. 2. The beta-antagonist propranolol, known to inhibit norepinephrine-induced respiration in micromolar concentrations, bound to the [3H]CGP-12177 site with nanomolar affinity. 3. Among agonists, only isoprenaline showed high selectivity for beta-receptors, and only oxymetazoline for alpha 1-receptors. 4. Unexpectedly, the novel thermogenic agonists (BRL-agonists), shown to be potent and selective stimulators of brown fat thermogenesis, were unselective and bound only with low affinity to the [3H]CGP-12177 binding sites. 5. These results suggest that the beta-adrenergic binding site in brown adipose tissue identified here with [3H]CGP-12177 may not be the one (or not the only one) coupled to thermogenesis.

Alpha 1- and beta-adrenergic receptors in brown adipose tissue of lean (Fa/?) and obese (fa/fa) Zucker rats. Effects of cold-acclimation, sucrose feeding and adrenalectomy

1. The populations of alpha 1- and beta-adrenergic receptors in brown adipose tissue (BAT) of genetically obese Zucker rats (fa/fa) were studied with [3H]prazosin and [3H]CGP-12177 respectively. 2. The density of alpha 1-adrenergic receptors in BAT was significantly lower in obese than in lean Zucker rats, both at 2-4 months of age and at 6 weeks of age. The density of beta-adrenergic receptors was identical in BAT of lean and obese 6-week-old Zucker rats. 3. Cold-acclimation increased the alpha 1-receptor density significantly in BAT of both lean and obese Zucker rats, and the number of beta-receptors was also somewhat increased. 4. Sucrose feeding did not affect the density of alpha 1-receptors in BAT of lean or obese Zucker rats, but it increased beta-receptor density. 5. Adrenalectomy restored the density of alpha 1-adrenergic receptors in BAT of obese Zucker rats to the value observed in lean rats. 6. It is concluded that there is a direct correlation between alpha 1-receptor density and tissue recruitment, and that alpha 1-receptor density is thus positively correlated with sympathetic activity. beta-Receptor density is apparently better correlated with feeding conditions.

In vitro study of adrenergic stimulation of 32P incorporation into phospholipids of brown adipose tissue of control and cold-acclimated rats

1. 32P-labelled inorganic phosphate incorporation into total and mitochondrial phospholipids was studied, in vitro, on brown adipose tissue (BAT) of control and cold-acclimated rats. 2. It was found that norepinephrine acts as in vivo, on BAT phospholipid metabolism via alpha 1 adrenergic receptors specifically increasing phosphatidic acid and phosphatidylinositol turnover with the same magnitude in both groups. 3. Cold-induced alpha 1 adrenergic desensitization is not as important as cold-induced beta adrenergic desensitization. 4. No specific effect of norepinephrine was seen in mitochondrial phospholipid turnover.

Alpha 2-adrenergic receptors in brown adipose tissue of infant rats--I. Identification and characteristics of binding sites in isolated plasma membranes

1. Alpha 2-Adrenoceptor antagonists [3H]yohimbine and [3H]RX 781094 and the partial alpha 2-agonist [3H]clonidine exhibited specific binding to plasma membrane fragments isolated from interscapular brown fat of 7-day-old rats. 2. Competition studies with epinephrine, yohimbine and practolol revealed that [3H]norepinephrine, the principal in vivo agonist acting upon brown adipocytes, can readily bind to alpha 2-adrenoceptors in brown fat of infant rats. 3. The presence of alpha 2-adrenoceptor subclass in brown fat of infant rats may play a role in the sympathetic regulation of this rapidly proliferating tissue.

Distinction between mechanisms underlying alpha 1- and beta-adrenergic respiratory stimulation in brown fat cells

Experimental conditions are described for selective alpha 1- and beta-adrenergic stimulation of the respiration of brown fat cells. The dual agonist norepinephrine was unsuitable as a selective alpha 1-agonist, since unacceptably high concentrations of propranolol were needed to abolish the beta-response. Phenylephrine at 50 microM, in the presence of 5 microM dl-propranolol, was shown to lead to a maximal, selective alpha 1-stimulation, whereas maximal, selective beta-stimulation was achieved with 1 microM isoproterenol in the presence of 5 microM prazosin. The mitochondrial uncoupler carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) was able to further increase respiration that was already maximally alpha 1-stimulated, but when added before the alpha 1-stimulation, FCCP totally abolished the response. In contrast, FCCP had no effect on the beta-stimulated response. Similarly, oligomycin (an inhibitor of mitochondrial ATP synthesis) inhibited alpha 1-respiration but had a much smaller effect on beta-respiration. Ouabain (an inhibitor of the Na+-K+-ATPase) halved alpha 1-respiration but only induced a small inhibition of beta-respiration. It is concluded that only a small fraction of thermogenesis from beta-adrenergic processes is due to oxidative phosphorylation, whereas alpha 1-respiration is largely due to the oxygen cost of mitochondrial ATP synthesis, and a large fraction of this ATP is apparently used for the restoration of ion gradients.

Induction of functional uncoupling protein in guinea pigs infused with noradrenaline. Studies with isolated brown adipocytes

Continuous infusion of noradrenaline over the interscapular brown fat of guinea pigs maintained at thermoneutrality (28-32 degrees C) induces changes similar to those after cold-adaptation. (1) Multilocular fat droplets appear within the brown adipocytes. (2) The number of mitochondria per adipocyte and the total number of adipocytes both increase. (3) Noradrenaline addition to isolated adipocytes causes near maximal uncontrolled respiration. (4) The cells become more sensitive to fatty acid-induced uncoupling. (5) The tissue-specific uncoupling protein per mg of mitochondrial protein is increased 5-fold. Specific alpha- and beta-agonists were also chronically infused. (6) Separate infusion of phenylephrine or isoprenaline was not able to stimulate mitochondriogenesis or hyperplasia. (7) Adipocytes from these animals could not be uncoupled by acute noradrenaline. (8) Simultaneous chronic infusion of phenylephrine and isoprenaline reproduced the effects of chronic noradrenaline infusion.

Requirement of gene transcription and protein synthesis for cold- and norepinephrine-induced stimulation of thyroxine deiodinase in rat brown adipose tissue

The increase in propylthiouracil-insensitive 'type II' thyroxine 5'-deiodinase activity of brown adipose tissue was investigated in rats exposed to acute cold stress or single-dose norepinephrine injection. The 20-fold cold-induced increase in enzyme activity showed a 2-h lag phase and reached a maximum after only 8 h; reacclimation occurred with a 2-h time lag and a half-life of 2.2 h. 4 h after a single norepinephrine injection, the deiodinase activity was almost identical to that after a 4-h cold stress; norepinephrine could not potentiate the effect of the cold stress. Treatment with the protein synthesis inhibitor cycloheximide before exposure to cold or before norepinephrine injection totally blocked the increase in deiodinase activity, suggesting that the increase is due to de novo protein synthesis. The half-life of the enzyme in vivo was estimated to be 0.7 h. Treatment with the RNA synthesis inhibitor actinomycin D totally abolished the cold- and norepinephrine-induced increases, indicating that the increase requires mRNA synthesis. It was concluded that the dramatic cold-induced increase in thyroxine deiodinase activity in brown adipose tissue was not due to activation of preexisting enzyme but was fully due to a norepinephrine-induced increase in expression of the gene and subsequent synthesis of the protein.

Occurrence of alpha 2-adrenergic effects on adenylate cyclase activity and (3H)-clonidine specific binding in brown adipose tissue from foetal rats

Noradrenaline maximally stimulates adenylate cyclase activity in brown adipocytes from foetal rats by 400%. Isoproterenol maximally stimulates the adenylate cyclase activity by 600%. The differences observed in the dose-response curves of adenylate cyclase activity to isoproterenol or noradrenaline were prevented in the presence of clonidine (a alpha 2-agonist) or yohimbine (alpha 2-antagonist) respectively. (3H)-clonidine binds specifically to brown fat membranes saturable (from 1.75 to 20 nM). Scatchard analysis revealed a Bmax of 22 fmol/mg and a KD of 10 nM.

Thermogenic responses to adrenoceptor agonists and brown fat adrenoceptors in overfed rats

Rats fed a cafeteria diet to produce hyperphagia showed increases in the maximal thermogenic responses (rise in oxygen consumption) to isoprenaline (mixed beta-agonist), prenalterol (beta 1-selective agonist) and clenbuterol (beta 2-agonist), and left-shifts in the dose-response curves to the latter two. The maximal response to phenylephrine (alpha-agonist) was similar for control and cafeteria rats. Ligand binding studies revealed increases in beta-adrenoceptor density of 33-38% in brown fat cells and isolated membranes from cafeteria-fed rats, but a 30% reduction in beta-receptors in heart membranes. Cold-adaptation caused a 22% reduction in beta-receptor density in brown fat membranes, but no change in heart. The ratio of beta 1/beta 2-receptors in brown fat was reduced from 59/45 in control to 47/54 in cafeteria-fed rats, but was not significantly altered in heart (58/44) or in brown fat from cold-adapted animals (64/30). alpha-Adrenoceptor density was increased above control values by 69 and 25% in brown adipose tissue from cafeteria and cold-adapted rats, respectively.

Effects of guanine nucleotides and cations on agonist affinity of alpha 1-adrenoceptors in brown adipose tissue

In order to investigate the coupling mechanism of alpha 1-adrenoceptors in brown adipose tissue, the effects of guanine nucleotides and cations on agonist binding were studied with a membrane fraction obtained from hamsters. The affinity of the alpha 1-receptor for the adrenergic agent was followed in competition experiments with [3H]prazosin. It was found that the addition of GTP diminished the affinity of the alpha 1-receptor for norepinephrine but not for the alpha-antagonist phentolamine. This effect seemed to be dependent upon the presence of Mg2+ and could not be observed in isolated cells, indicating an intracellular site of action. A reduction of the Mg2+ concentration from the conventional 10 mM to the more physiological level of 1 mM markedly increased the affinity of the receptor for norepinephrine; this effect again was agonist-specific. The addition of Na+ (150 mM) decreased the agonist affinity of the receptor. It is suggested that the (not adenylate cyclase-coupled) alpha 1-adrenergic pathway in brown adipose tissue also is regulated by guanine nucleotides and modulated by the cations Mg2+ and Na+, indicating an involvement of a guanine nucleotide binding protein. Such a system may therefore be a general mechanism for the transduction of hormone stimulation over the cell membrane.

Changes in adrenoreceptor density in brown adipose tissue from hyperthyroid rats

Treatment of rats with triiodothyronine (T3 10 micrograms/100 g per day, 20 days) increased the mass of brown adipose tissue (BAT) and heart ventricle and stimulated beta-adrenoreceptor number (assessed from radioligand binding) by 43% in isolated BAT and heart membranes. alpha-Receptor number was slightly increased in BAT membranes (42%) but reduced in heart from T3-treated rats. The ratio of alpha-receptors/beta-receptors was unaffected by T3 treatment in BAT membranes (control and hyperthyroid = 1.54) but reduced in heart (control = 2.8, T3 = 1.04).

Cold exposure or chronic noradrenaline treatment induces an increase in the calmodulin-like immunoreactivity of brown adipose tissue of rats

Cell proliferation is often associated with an increase in calmodulin, the ubiquitous intracellular calcium receptor of non-muscle cells. A long lasting increase in the proliferative activity of brown adipose tissue is induced by cold exposure in the rat. The present work showed that this phenomenon is also associated with a rapid and long lasting increase in the calmodulin content of this tissue. It was equally shown that this increase can be reproduced by noradrenaline administration.