Adaptive changes in the concentration of the mitochondrial 'uncoupling' protein in brown adipose tissue of hamsters acclimated at different temperatures

Histological and Metabolic State of Dams Suckling Small Litter or MSG-Treated Pups

Lactation is an important function that is dependent on changes in the maternal homeostasis and sustained by histological maternal adjustments. We evaluated how offspring manipulations during the lactational phase can modulate maternal morphologic aspects in the mammary gland, adipose tissue, and pancreatic islets of lactating dams. Two different models of litter-manipulation-during-lactation were used: litter sizes, small litters (SL) or normal litters (NL) and subcutaneous injections in the puppies of monosodium glutamate (MSG), or saline (CON). SL Dams and MSG Dams presented an increase in WAT content and higher plasma levels of glucose, triglycerides, and insulin, in relation to NL Dams and CON Dams, respectively. The MG of SL Dams and MSG Dams presented a high adipocyte content and reduced alveoli development and the milk of the SL Dams presented a higher calorie and triglyceride content, compared to that of the NL Dams. SL Dams presented a reduction in islet size and greater lipid droplet accumulation in BAT, in relation to NL Dams. SL Dams and MSG Dams present similar responses to offspring manipulation during lactation, resulting in changes in metabolic parameters. These alterations were associated with higher fat accumulation in BAT and changes in milk composition only in SL Dams.

Increased thermogenic capacity of brown adipose tissue under low temperature and its contribution to arousal from hibernation in Syrian hamsters

Brown adipose tissue (BAT) is thought to play a significant physiological role during arousal when body temperature rises from the extremely low body temperature that occurs during hibernation. The dominant pathway of BAT thermogenesis occurs through the β(3)-adrenergic receptor. In this study, we investigated the role of the β(3)-adrenergic system in BAT thermogenesis during arousal from hibernation both in vitro and in vivo. Syrian hamsters in the hibernation group contained BAT that was significantly greater in overall mass, total protein, and thermogenic uncoupling protein-1 than BAT from the warm-acclimated group. Although the ability of the β(3)-agonist CL316,243 to induce BAT thermogenesis at 36°C was no different between the hibernation and warm-acclimated groups, its maximum ratio over the basal value at 12°C in the hibernation group was significantly larger than that in the warm-acclimated group. Forskolin stimulation at 12°C produced equivalent BAT responses in these two groups. In vivo thermogenesis was assessed with the arousal time determined by the time course of BAT temperature or heart rate. Stimulation of BAT by CL316,243 significantly shortened the time of arousal from hibernation compared with that induced by vehicle alone, and it also induced arousal in deep hibernating animals. The β(3)-antagonist SR59230A inhibited arousal from hibernation either in part or completely. These results suggest that BAT in hibernating animals has potent thermogenic activity with a highly effective β(3)-receptor mechanism at lower temperatures.

Photoperiodic regulation in energy intake, thermogenesis and body mass in root voles (Microtus oeconomus)

The present study was designed to examine whether photoperiod alone was effective to induce seasonal regulations in physiology in root voles (Microtus oeconomus) from the Qinghai-Tibetan plateau noted for its extreme cold environment. Root voles were randomly assigned into either long photoperiod (LD; 16L:8D) or short photoperiod (SD; 8L:16D) for 4 weeks at constant temperature (20 degrees C). At the end of acclimation, SD voles showed lower body mass and body fat coupled with higher energy intake than LD voles. SD greatly enhanced thermogenic capacities in root voles, as indicated by elevated basal metabolic rate (BMR), nonshivering thermogenesis (NST), mitochondrial protein content and uncoupling protein-1 (UCP1) content in brown adipose tissue (BAT). Although no variations in serum leptin levels were found between SD and LD voles, serum leptin levels were positively correlated with body mass and body fat mass, and negatively correlated with energy intake and UCP1 content in BAT, respectively. To summarize, SD alone is effective in inducing higher thermogenic capacities and energy intake coupled with lower body mass and body fat mass in root voles. Leptin is potentially involved in the photoperiod induced body mass regulation and thermogenesis in root voles.

Stimulation of nonshivering thermogenesis in the Syrian hamster by norepinephrine and beta-selective adrenergic agents: a phenomenon of refractoriness

The ability of different adrenergic agents to stimulate nonshivering thermogenesis in Syrian hamsters was investigated. The hamsters were cold-acclimated to 6 degrees C and their thermogenic response was investigated in an open-circuit system at 24 degrees C. Both norepinephrine and the beta 3-specific adrenergic agonist CGP-12177 induced a high rate of nonshivering thermogenesis. However, neither CGP-12177 nor other beta 3-selective agonists (BRL-37344, ICI-D7114) could induce nonshivering thermogenesis fully to the extent induced by norepinephrine. It was further observed that an apparent "thermogenic refractoriness" was induced by certain adrenergic agents (isoprenaline, CGP-12177) but not by others (norepinephrine, BRL-37344, ICI-D7114). It is discussed whether the refractoriness could be secondary to effects of these agents on the vascular system. It is pointed out that the thermogenic response to adrenergic stimulation observed in the intact animal does not always fully correspond to what would be predicted from corresponding studies with isolated brown-fat cells.

Sulfonates are low-affinity ligands for the GDP-binding site of brown-fat mitochondria

In order to study the function of the brown-fat specific uncoupling protein thermogenin (UCP), the effect of certain sulfonates on [3H]GDP binding to the GDP-binding site of brown adipose tissue mitochondria was studied. The affinity of [3H]GDP for the site was 1.3 microM in the normal sucrose medium, but the apparent KD was increased to approximately 20 microM in 100 mM hexanesulfonate medium. This increase in apparent KD was found to be due to a competitive binding of hexanesulfonate to the GDP-binding site; the affinity of hexanesulfonate was only 13 mM but this was sufficient to affect the apparent affinity of GDP under experimental conditions. Also in KCl-medium, the affinity of GDP was high (approximately 3 microM), but both in a benzenesulfonate medium and in a para-aminobenzenesulfonate (sulfanilate) medium, the apparent affinity was lower (approximately 12 microM); as benzenesulfonate is well transported by thermogenin but sulfanilate is not, the reduction in affinity was unrelated to transport. In agreement with earlier data (Jezek, P. and Garlid, K.D. (1990) J. Biol. Chem. 265, 19303-19311), the potency of GDP to inhibit transport was dependent on the species transported; the fact that GDP potency was lower for benzenesulfonate transport (EC50 = 324 microM) than for Cl- transport (EC50 = 32 microM) could adequately be explained by the competitive interaction of benzenesulfonate with the GDP-binding site, but this effect could only partly explain the even lower potency of GDP to inhibit hexanesulfonate transport (EC50 = 4074 microM). It was concluded that these types of substrate for thermogenin-mediated transport may directly interact with the GDP-binding site, but that this effect could only partly explain the dependence of GDP potency on substrate species.

ATPase-inhibitor proteins of brown-adipose-tissue mitochondria from warm- and cold-acclimated rats

1. A group of male Sprague-Dawley rats (5-6 weeks old) was cold-acclimated at 4 degrees C for 4 weeks. Warm-acclimated controls remained at 24 degrees C. Total protein content of brown adipose tissue (BAT) increased more than 3-fold and total uncoupling protein (UCP) content increased more than 6-fold upon cold-acclimation. The concentration of UCP in isolated BAT mitochondria almost doubled. 2. Specific ATPase activity of the non-thermogenic BAT mitochondria (from warm-acclimated controls) was low and increased about 6-fold on addition of 1 microM-Ca2+, which raised free Ca2+ levels (measured by Fura-2) in the incubation media from 1.32 +/- 0.28 microM (mean +/- S.E.M.) to 2.29 +/- 0.39 microM [at which the Ca(2+)-binding ATPase-inhibitor protein (CaBI) is inactivated]. Correspondingly, the specific ATP synthetase activity of the non-thermogenic BAT mitochondria was high and was decreased by 74% by addition of 1 microM-Ca2+. 3. In contrast, specific ATPase activity of thermogenic BAT mitochondria (from cold-acclimated rats) was 5 times that of the control group, and addition of Ca2+ had only a small stimulatory response. Correspondingly, the specific ATP synthetase activity of the thermogenic BAT mitochondria was low, and the decrease by Ca2+ was small, albeit significant. 4. Extracts of BAT mitochondria from both groups of animals contained significant amounts of the ATPase-inhibitor protein of Pullman and Monroy (PMI) as well as of CaBI, as shown by gel electrophoresis. Kinetic studies of inhibition of mitochondrial ATPase activity showed that PMI activity was unaltered in extracts from the thermogenic BAT mitochondria, whereas CaBI activity was slightly but significantly increased. 5. The presence of active ATPase-inhibitor proteins in BAT mitochondria was shown for the first time. We conclude that uncoupling of oxidative phosphorylation occurs in thermogenic BAT mitochondria, even in the presence of the ATPase-inhibitor proteins.

Unmasking of GDP binding sites on hamster brown adipose tissue mitochondria and uncoupling protein

1. A rapid unmasking of GDP binding sites on brown adipose tissue (BAT) mitochondria was observed when hamsters acclimatized to 28 degrees C were exposed to a temperature of 4 degrees C for 2 hr. 2. No rapid unmasking of GDP binding sites was observed when hamsters housed at 22 degrees C were briefly exposed to 4 degrees C. 3. The amount of GDP bound to BAT mitochondria from hamsters increased during 2 weeks of exposure to 4 degrees C, but did not change between 2 weeks and 30 days of cold exposure. 4. Incubation of mitochondria with 10 mM Mg2+ prior to the GDP binding assay increased the subsequent GDP binding to BAT mitochondria from hamsters housed at 28, 22 or 4 degrees C, albeit to different degrees. 5. The amount of GDP bound to uncoupling proteins isolated from untreated and Mg(2+)-treated mitochondria of hamsters and rats was measured. Scatchard analyses of the binding of GDP to purified uncoupling protein indicate that increases in the number of binding sites due to Mg2+ treatment of mitochondria do not change the affinity of the protein for GDP.

Effect of photoperiod and acclimation temperature on nonshivering thermogenesis and GDP-binding of brown fat mitochondria in the Djungarian hamster Phodopus s. sungorus

Acclimation to short photoperiod at 23 degrees C constant Ta caused P. sungorus to improve their NST capacity from 752 to 1,082 mW. Chronic cold exposure in short photoperiod further enhanced the NST capacity, reaching a maximum level of 1,573 mW at -5 degrees C acclimation temperature. Improvements in NST capacity were always accompanied by an increase in brown fat mitochondrial mass and GDP-binding of brown fat mitochondria, in proportion with the cold load applied during temperature acclimation (23 degrees, 15 degrees, 5 degrees, -5 degrees C). Brown fat mitochondrial protein increased from 7.41 mg (23 degrees C Ta, long photoperiod) through 21.6 mg (23 degrees C Ta, short photoperiod) and 81.6 mg (-5 degrees C Ta, short photoperiod). This approximately 10-fold increase was accompanied by a approximately 35-fold increase in GDP-binding (2.0, 7.3 and 71.6 nmol GDP bound, respectively), demonstrating that the increase in capacity for uncoupled respiration in brown fat is of primary significance for thermogenic acclimation to cold as well as to short photoperiod.

Adaptive changes in individual acyl-CoA esters from hamster BAT during cold acclimation

Long-chain fatty acyl-CoA esters (LCFACoAE) were extracted from freeze-clamped powdered brown adipose tissue (BAT) obtained from thermoneutral control and cold-acclimated hamsters and the CoA esters individually separated by high-performance liquid chromatography. LCFACoAE of carbon chain length C12 to C20 were identified by increasing column retention time in the following order: C12:0, C14:1, C14:0, C16:1, C18:2, C16:0, C18:1, C18:0, and C20:4. The mean total LCFACoAE concentrations were 235 +/- 40 nmol/g protein for the control hamsters and 648 +/- 105 nmol/g protein for the 22-day cold-acclimated hamsters. A rapid fourfold increase in the levels of C16:0, C18:0, and C18:1 occurred within hours after initiation of the cold temperature, whereas the concentrations of the other six LCFACoAE either increased only slightly or remained unchanged. Almost 50% of the total LCFACoAE in the BAT of cold-acclimated hamsters was made up of C16:0, C18:0, and C18:1. These results, which demonstrate some dynamic changes in adipose tissue LCFACoAE, are consistent with their proposed role in the initiation and maintenance of BAT thermogenesis.

Regulation of GDP binding and uncoupling-protein concentration in brown-adipose-tissue mitochondria. The effects of cold-acclimation, warm-reacclimation and noradrenaline

We have used a specific immunoassay for uncoupling protein and [3H]GDP binding to study the acute and chronic responses of brown-adipose-tissue (BAT) mitochondria of warm-acclimated rats to housing at 4 degrees C and cold-acclimated rats to housing at 27 degrees C. These studies have shown the following. (1) In the cold-exposed rat the increase in mitochondrial uncoupling-protein concentration parallels the increase in GDP binding from 1 day to 5 days, but that acutely (initial 4 h) the increase in GDP binding is not associated with any change in uncoupling-protein concentration. 2. In the cold-acclimated rat rehoused at 27 degrees C, GDP binding fell by over 50% in the first 2 days, without any change in uncoupling-protein concentrations. 3. Noradrenaline acutely (30 min) increased BAT mitochondrial GDP binding of lean and obese Zucker rats, without any change in uncoupling-protein concentrations. 4. The increases in GDP binding in cold-exposed rats were associated with increases in the rate of swelling of mitochondria in the presence of valinomycin and potassium acetate. The evidence supports the hypothesis that the acute response of the rat to changes in environmental temperature are associated with unmasking or remasking of uncoupling protein, whereas chronically changes in uncoupling-protein concentration predominate.

Effect of warm or cold exposure on GDP binding and uncoupling protein in rat brown fat

The effects of acute and chronic exposure to different environmental temperatures on the total tissue cytochrome oxidase activity, level of mitochondrial GDP binding, and specific mitochondrial concentration of uncoupling protein have been investigated in rat brown adipose tissue, a radioimmunoassay being used to measure uncoupling protein. Acclimation at different temperatures for 3 wk produced parallel changes in GDP binding, the concentration of uncoupling protein, and the activity of cytochrome oxidase, each parameter rising with decreasing temperature between thermoneutrality (29 degrees C) and 4 degrees C. Acute exposure of warm-acclimated (29 degrees C) rats to the cold (4 degrees C) led to a rapid increase in GDP binding without any alteration in the amount of uncoupling protein. The increase in binding was accompanied by an increase in the rate of acetate-induced swelling of the mitochondria. The concentration of uncoupling protein in warm-acclimated rats was significantly raised only after 48 h exposure to cold. When cold-acclimated rats were exposed acutely to the warm, there was a rapid decrease in GDP binding without any alteration in the amount of uncoupling protein. It is concluded that after alterations in environmental temperature the concentration of uncoupling protein in brown adipose tissue mitochondria changes much more slowly than GDP binding and that binding can therefore be dissociated from the amount of the protein.

Rapid changes in number of GDP binding sites on brown adipose tissue mitochondria

GDP binding to brown adipose tissue (BAT) mitochondria increased more than twofold in 20 min when rats were moved from 27 to 4 degrees C. When animals housed at 4 degrees C for 2 h were returned to 27 degrees C, GDP binding decreased sharply in 20 min and returned to control levels in 2 h. These results are consistent with a rapid unmasking and remasking of GDP binding sites. GDP binding to mitochondria from warm and acutely cold treated rats was not modified by prior swelling, by freeze-thawing, nor by sonication of the mitochondria before assay. GDP-inhibitable proton conductance, as measured by passive swelling, was unaffected by this brief exposure to cold but more than doubled in rats kept at 4 degrees C for 10 days. We hypothesize that the rate of GDP-inhibitable swelling may be a reflection of uncoupling protein concentration in the BAT mitochondria, whereas physiological thermogenic activity is more appropriately indicated by GDP binding. The alterations in binding activity appear not to be due to changes in the mitochondrial membrane integrity.

Thyroxine 5'-deiodinase in hamster and rat brown adipose tissue: effect of cold and diet

Thyroxine 5'-deiodinase (type II) is present in a microsomal fraction of brown adipose tissue (BAT) of Syrian hamsters. Cold exposure increased specific activity in homogenates after a lag period of approximately 2 h to reach a maximum by 1-3 days. Total activity increased 80 times in cold-acclimated hamsters. During deacclimation, a rapid decrease occurred again after a lag period of approximately 2 h. The increase did not parallel increases in protein or in thermogenic state of mitochondria (mitochondrial GDP binding), which occurred more slowly. Changes in serum 3,5,3'-triiodothyronine concentration paralleled changes in BAT 5'-deiodinase during both acclimation to cold and deacclimation. The cold-induced increase in BAT 5'-deiodinase activity occurred more slowly but was much larger in hamsters than in rats. Eating a palatable diet increased BAT protein content and thermogenic activity in both hamsters and rats but did not alter total 5'-deiodinase activity in either species. We conclude that the trophic response of brown adipose tissue to cold in both hamsters and rats is accompanied by an enhanced endogenous production of triiodothyronine that may play a role in control of tissue growth. The trophic response to a palatable diet differs in that enhanced endogenous production of triiodothyronine is not an obligatory accompaniment. Specific stimulation of 5'-deiodinase by cold might modify thermogenesis in tissues other than BAT by providing triiodothyronine and be of greater significance in hamsters than in rats.

Effects of short photoperiod and melatonin treatment on thermogenesis in the Syrian hamster

This study investigated whether short photoperiod or melatonin-treatment could alter the thermogenic capacity of Syrian hamsters. Exposure of hamsters to short photoperiod and to exogenous melatonin treatment induced gonadal regression and hypertrophy of brown adipose tissue (BAT). Short photoperiod and melatonin-induced BAT hypertrophy was not accompanied by any change in noradrenaline (NA) turnover in this tissue. The concentration of NA was significantly decreased in hypertrophied BAT, indicating that sympathetic innervation in BAT did not effect its hypertrophy. No improvement in nonshivering thermogenic capacity was noticed in hamsters with increased BAT mass. However, capability for shivering thermogenesis seemed to be enhanced in melatonin-treated hamsters. These observations suggest that melatonin, in addition to mediating short photoperiod-induced gonadal regression in the Syrian hamster, also brings about thermoregulatory adjustments necessary for hibernation.

Parallel increases in amount of (3H)GDP binding and thermogenin antigen in brown-adipose-tissue mitochondria of cafeteria-fed rats

In order to investigate the possible existence of a 'masked' (i.e. non-GDP-binding) form of thermogenin (the brown-adipose-tissue specific, 32 000 Da so-called "uncoupling" protein), rats were fed a routine pellet diet or, in addition to this, a cafeteria diet. Brown-adipose-tissue mitochondria isolated from the cafeteria-fed animals showed as expected an increased (3H)GDP binding capacity (from 0.26 to 0.41 nmol/mg protein; an increase of 57%). However, when analysed by a quantitative enzyme-linked immuno-assay system for thermogenin, the mitochondria also showed an increased content of thermogenin (from 14.9 to 20.5 micrograms per mg; an increase of 38%). The ratio between thermogenin and GDP binding was 61 000 and 53 000 g/mol in the two cases; these values were not significantly different and were in good agreement with suggestions that thermogenin binds 1 GDP per thermogenin dimer. It was concluded that under the conditions investigated, there was no reason to assume the existence of a masked form of thermogenin.