The effects of corticosterone, cold exposure and overfeeding with sucrose on brown adipose tissue of obese Zucker rats (fa/fa)

Mogroside V Protects Porcine Oocytes From Lipopolysaccharide-Induced Meiotic Defects

Accumulating evidence has demonstrated that lipopolysaccharide (LPS) compromises female reproduction, especially oocyte maturation and competence. However, methods to protect oocyte quality from LPS-induced deterioration remain largely unexplored. We previously found that mogroside V (MV) can promote oocyte maturation and embryonic development. However, whether MV can alleviate the adverse effects of LPS exposure on oocyte maturation is unclear. Thus, in this study, we used porcine oocytes as a model to explore the effects of MV administration on LPS-induced oocyte meiotic defects. Our findings show that supplementation with MV protected oocytes from the LPS-mediated reduction in the meiotic maturation rate and the subsequent blastocyst formation rate. In addition, MV alleviated the abnormalities in spindle formation and chromosome alignment, decrease in α-tubulin acetylation levels, the disruption of actin polymerization, and the reductions in mitochondrial contents and lipid droplet contents caused by LPS exposure. Meanwhile, LPS reduced m⁶A levels in oocytes, but MV restored these epigenetic modifications. Furthermore, MV reduced reactive oxygen species (ROS) levels and early apoptosis in oocytes exposed to LPS. In summary, our study demonstrates that MV can protect oocytes from LPS-induced meiotic defects in part by reducing oxidative stress and maintaining m⁶A levels.

Glucocorticoids and Brown Adipose Tissue: Do glucocorticoids really inhibit thermogenesis?

A reduction in the thermogenic activity of brown adipose tissue (BAT) is presently discussed as a possible determinant for the development of obesity in humans. One group of endogenous factors that could potentially affect BAT activity is the glucocorticoids (e.g. cortisol). We analyse here studies examining the effects of alterations in glucocorticoid signaling on BAT recruitment and thermogenic capacity. We find that irrespective of which manipulation of glucocorticoid signaling is examined, a seemingly homogeneous picture of lowered thermogenic capacity due to glucocorticoid stimulation is apparently obtained: e.g. lowered uncoupling protein 1 (UCP1) protein levels per mg protein, and an increased lipid accumulation in BAT. However, further analyses generally indicate that these effects result from a dilution effect rather than a true decrease in total capacity; the tissue may thus be said to be in a state of pseudo-atrophy. However, under conditions of very low physiological stimulation of BAT, glucocorticoids may truly inhibit Ucp1 gene expression and consequently lower total UCP1 protein levels, but the metabolic effects of this reduction are probably minor. It is thus unlikely that glucocorticoids affect organismal metabolism and induce the development of obesity through alterations of BAT activity.

Effects of long-term sucrose overfeeding on rat brown adipose tissue: a structural and immunohistochemical study

The aim of this study was to determine the effects of long-term sucrose overfeeding on functional capacity and ultrastructural characteristics of the rat brown adipose tissue (BAT). For the study, 16 male Wistar rats, chow-fed and kept under standard laboratory conditions, were divided into 2 equal groups. The rats from a control group drank tap water, whereas those from a sucrose overfed group were allowed to drink 10% sucrose solution for 21 days. Structural changes of BAT were analysed at the level of light and electron microscopy on routinely prepared tissue sections or using immunohistochemical staining, in combination with stereological methods. Obtained results have shown that the significantly increased energy intake in sucrose overfed rats did not result in a higher gain of body mass compared with controls. The light microscopy analysis revealed that the BAT acquired the appearance of a thermogenically active tissue, with intensified vascularisation, reduced size of brown adipocytes and increased multilocularity. At the ultrastructural level, mitochondria of brown adipocytes became more abundant, enlarged and contained more cristae in comparison to control animals. The immunoexpression of uncoupling protein 1 (UCP1) and noradrenaline, as markers of BAT thermogenic status, was increased, whereas the pattern of peroxisome proliferator-activated receptor gamma coactivator 1-alpha (PGC1α) was slightly modified. Taken together, the results of this investigation indicated that BAT possesses the ability to increase thermogenic capacity/activity in response to high energy intake and to prevent body mass gain. These findings are particularly relevant in view of recent reports on the existence of functional BAT in adult humans and its potential use to combat obesity.

Carnitine is necessary to maintain the phenotype and function of brown adipose tissue

The juvenile visceral steatosis (JVS) mouse is a mutant strain with an inherited systemic carnitine deficiency. Mice of this strain show clinical signs attributable to impaired heat production and disturbed energy production. Brown adipose tissue (BAT) is the primary site of non-shivering thermogenesis in the presence of uncoupling protein-1 (UCP-1) in rodents and humans, especially in infants. To investigate the possible cause of impaired heat production in BAT, we studied the morphological features, carnitine concentration, and UCP-1 production of BAT in JVS mice. The effect of carnitine administration on these parameters was also examined. JVS mice aged 5 or 10 days (60 each) and age-matched control mice were used in this study, along with 10-day-old JVS mice treated subcutaneously with L-carnitine once a day between postpartum days 5 and 10. JVS mice showed lower body temperatures and lower concentrations of carnitine in BAT. Morphologically, BAT cells in JVS mice contained large lipid vacuoles and small mitochondria, similar to those present in white adipose tissue cells. In addition, UCP-1 mRNA and protein expression levels were significantly reduced in JVS as compared with control mice. Carnitine treatment resulted in significant increases in body temperature and carnitine concentrations in BAT, together with the recovery of normal morphological features. UCP-1 mRNA and protein expression levels were also significantly increased. These findings strongly suggest that carnitine is essential for maintaining the function and morphology of BAT.

Leptin: at the crossroads of energy balance and systemic inflammation

In addition to playing a central role in energy homeostasis, leptin is also an important player in the inflammatory response. Systemic inflammation is accompanied by fever (less severe cases) or hypothermia (more severe cases). In leptin-irresponsive mutants, the hypothermia of systemic inflammation is exaggerated, presumably due to the enhanced production and cryogenic action of tumor necrosis factor (TNF)-alpha. Mechanisms that exaggerate hypothermia can also attenuate fever, particularly in a cool environment. Another common manifestation of systemic inflammation is behavioral depression. Along with the production of interleukin (IL)-1beta, this manifestation is exaggerated in leptin-irresponsive mutants. The enhanced production of TNF-alpha and IL-1beta may be due, at least in part, to insufficient activation of the anti-inflammatory hypothalamo-pituitary-adrenal axis by immune stimuli in the absence of leptin signaling. In experimental animals and humans that are responsive to leptin, suppression of leptin production under conditions of negative energy balance (e.g., fasting) can exaggerate both hypothermia and behavioral depression. Since these manifestations aid energy conservation, exaggeration of these manifestations under conditions of negative energy balance is likely to be beneficial.

Maternal low-protein diet in rat pregnancy programs blood pressure through sex-specific mechanisms

Animal models support human epidemiological studies in demonstrating a relationship between impaired fetal growth and risk of adult hypertension. Undernutrition during pregnancy exerts programming effects on the developing kidney, and modulation of angiotensin receptor (ATR) expression has been observed persisting into adult life. Fetal overexposure to glucocorticoids is thought to be central to the nutritional programming of blood pressure and may act through an interaction with ATR expression. Pregnant female Wistar rats were fed a control ( n = 6) or a maternal low-protein diet (MLP; n = 17) throughout pregnancy. The glucocorticoid dependency of MLP effects was tested using metyrapone, an inhibitor of corticosterone synthesis. MLP-fed rats were injected twice daily with metyrapone, metyrapone plus corticosterone, or vehicle over days 1–14 of pregnancy. At delivery, all animals were fed standard laboratory chow. MLP-exposed offspring 4 wk of age exhibited increased systolic blood pressure compared with controls ( P < 0.05), which proved to be glucocorticoid dependent in males only. AT1R mRNA expression was independent of in utero dietary treatment. AT2R mRNA expression was downregulated in MLP-exposed females only ( P < 0.05) and in a glucocorticoid-independent manner. Male offspring exhibited glucocorticoid-dependent hypertension with no modulation of renal ATR mRNA expression. In contrast, female offspring exhibited glucocorticoid-independent hypertension associated with reduced expression of renal AT2R mRNA. These data do not support the hypothesis that an interaction between glucocorticoid and ATR mRNA expression underlies the nutritional programming of blood pressure but instead suggest two independent mechanisms acting in a sex-specific manner.

Enhanced circadian ACTH release in obese premenopausal women: reversal by short-term acipimox treatment

Several studies suggest that the hypothalamo-pituitary-adrenal (HPA) axis is exceedingly active in obese individuals. Experimental studies show that circulating free fatty acids (FFAs) promote the secretory activity of the HPA axis and that human obesity is associated with high circulating FFAs. We hypothesized that HPA axis activity is enhanced and that lowering of circulating FFAs by acipimox would reduce spontaneous secretion of the HPA hormonal ensemble in obese humans. To evaluate these hypotheses, diurnal ACTH and cortisol secretion was studied in 11 obese and 9 lean premenopausal women (body mass index: obese 33.5 +/- 0.9 vs. lean 21.2 +/- 0.6 kg/m(2), P < 0.001) in the early follicular stage of their menstrual cycle. Obese women were randomly assigned to treatment with either acipimox (inhibitor of lipolysis, 250 mg orally four times daily) or placebo in a double-blind crossover design, starting one day before admission until the end of the blood-sampling period. Blood samples were taken during 24 h with a sampling interval of 10 min for assessment of plasma ACTH and cortisol concentrations. ACTH and cortisol secretion rates were estimated by multiparameter deconvolution analysis. Daily ACTH secretion was substantially higher in obese than in lean women (7,950 +/- 1,212 vs. 2,808 +/- 329 ng/24 h, P = 0.002), whereas cortisol was not altered (obese 36,362 +/- 5,639 vs. lean 37,187 +/- 4,239 nmol/24 h, P = 0.912). Acipimox significantly reduced ACTH secretion in the obese subjects (acipimox 5,850 +/- 769 ng/24 h, P = 0.039 vs. placebo), whereas cortisol release did not change (acipimox 33,542 +/- 3,436 nmol/24 h, P = 0.484 vs. placebo). In conclusion, spontaneous ACTH secretion is enhanced in obese premenopausal women, whereas cortisol production is normal. Reduction of circulating FFA concentrations by acipimox blunts ACTH release in obese women, which suggests that FFAs are involved in the pathophysiology of this neuroendocrine anomaly.

A new function of the leptin receptor: mediation of the recovery from lipopolysaccharide-induced hypothermia

Obese (f/f) Koletsky rats lack the leptin receptor (LR), whereas their lean (F/?) counterparts bear a fully functional LR. By using f/f and F/? rats, we studied whether the LR is involved in lipopolysaccharide (LPS)-induced fever and hypothermia. The body temperature responses to LPS (10 or 100 microg/kg iv) were measured in Koletsky rats exposed to a thermoneutral (28 degrees C) or cool (22 degrees C) environment. Rats of both genotypes responded to LPS with fever at 28 degrees C and with dose-dependent hypothermia at 22 degrees C. The fever responses of the f/f and F/? rats were identical. The hypothermic response of the f/f rats was markedly prolonged compared with that of the F/? rats. The prolonged hypothermic response to LPS in the f/f rats was accompanied by enhanced NF-kappaB signaling in the hypothalamus and an exaggerated rise in the plasma concentration of tumor necrosis factor (TNF)-alpha. The f/f rats did not respond to LPS with an increase in the plasma concentration of corticosterone or adrenocorticotropic hormone, whereas their F/? counterparts did. The hypothermic response to TNF-alpha (80 microg/kg iv) was markedly prolonged in the f/f rats. These data show that the LR is essential for the recovery from LPS hypothermia. LR-dependent mechanisms of the recovery from LPS hypothermia include activation of the anti-inflammatory hypothalamo-pituitary-adrenal axis, inhibition of both the production and hypothermic action of TNF-alpha, and suppression of inflammatory (via NF-kappaB) signaling in the hypothalamus.

Intracerebroventricular glucocorticoid infusion in normal rats: induction of parasympathetic-mediated obesity and insulin resistance

OBJECTIVE

The aims of the present study were to determine whether increased body weight resulting from intracerebroventricular (ICV) glucocorticoid (dexamethasone) infusion in normal rats is associated, as in obesity, with changes in glucose metabolism and to investigate whether the parasympathetic nervous system is involved in the glucocorticoid-induced effects.

RESEARCH METHODS AND PROCEDURES

Male Sprague-Dawley rats were infused with ICV dexamethasone (2.5 microg/d) or its vehicle for 2 days during which food intake, body weight, and basal insulinemia were measured. Euglycemic-hyperinsulinemic clamps associated with the labeled 2-deoxyglucose technique were then performed to determine the total rate of glucose disappearance and the tissue glucose use indices. Similar experiments were carried out in vagotomized rats.

RESULTS

Two days of ICV glucocorticoid infusion in normal rats resulted in increases in food intake, body weight, basal insulinemia, and produced decreases in the insulin-stimulated total rate of glucose disappearance, as well as in glucose use indices of all muscle types studied. None of these alterations was observed when glucocorticoid infusion was carried out in vagotomized rats.

DISCUSSION

These data show that central glucocorticoid infusion favors anabolic processes, such as feeding behavior, body weight gain, and insulin output, while promoting muscle insulin resistance. These effects seem to be mediated by an activation of the parasympathetic nervous system, because they all disappear when tested in vagotomized rats.

Role of hypothalamic neuropeptide Y neurons in the defective thermogenic response to acute cold exposure in fatty Zucker rats

The fatty Zucker rat has impaired heat production and fails to mount an adequate thermogenic response to cold exposure, partly because of decreased sympathetic drive to thermogenesis in brown adipose tissue. Neuropeptide Y, synthesized in neurons of the hypothalamic arcuate nucleus and released in the paraventricular nucleus, stimulates feeding and inhibits brown adipose tissue activity. The neuropeptide Y neurons are overactive in fatty Zucker rats and are thought to contribute to hyperphagia, reduced energy expenditure and obesity. We have examined the relationship between thermogenic activity in brown adipose tissue (measured as uncoupling protein messenger RNA levels) and hypothalamic neuropeptide Y and neuropeptide Y messenger RNA levels in response to cold exposure (4 degrees C) for 2.5 and 18 h, in fatty and lean Zucker rats. In lean Zucker rats, cold exposure at 4 degrees C for 2.5 and 18 h significantly increased uncoupling protein messenger RNA levels by 3.5-fold (P<0.01) and 3.3-fold (P<0.01), respectively, compared with warm-maintained controls. Exposure to cold for 18 h also increased neuropeptide Y concentrations in the paraventricular nucleus (P<0.01) and ventromedial nucleus (P<0.001) in lean rats, with no change in neuropeptide Y messenger RNA after either 2.5 or 18 h. By contrast, fatty Zucker rats showed no significant changes in uncoupling protein messenger RNA (P>0.05) at either duration of cold exposure. There were also no significant changes in neuropeptide Y levels in any region nor in neuropeptide Y messenger RNA, with cold exposure for either period (P>0.05). In lean rats, cold exposure therefore stimulates brown fat uncoupling protein messenger RNA and also increases neuropeptide Y concentrations in its hypothalamic sites of release. We suggest that increased brown fat thermogenic capacity induced by cold in lean rats may be mediated, at least in part, by decreased neuropeptide Y release in the paraventricular nucleus, resulting in its accumulation in this site. Defective thermogenic responses in fatty rats may result from central dysregulation of brown adipose tissue due to sustained and non-suppressible overactivity of hypothalamic neuropeptide Y neurons.

Effects of RU 486 on energy expenditure and meal tolerance in normal men

OBJECTIVE

To evaluate the possible actions of glucocorticoids on resting energy expenditure and the thermogenic response to food in man.

METHODS

The morning after administration of RU 486 or placebo, resting metabolic rate (RMR) and the thermogenic response to food (TRF), were measured after the ingestion of a standardized meal in 12 healthy male volunteers. Plasma glucose (PG) and insulin (PI) concentrations were also measured at regular intervals.

RESULTS

1) After RU 486 administration, plasma cortisol was elevated throughout the test comparatively to placebo. 2) Fraction and concentration of free cortisol were also higher after RU 486 than after placebo. 3) Corticosteroid-binding-globulin (CBG) was similar in both experimentations. 4) RMR was not different after RU 486 (1656 +/- 144 kcal/day) or after placebo (1632 +/- 120 kcal/day). 5) TRF was not different after RU 486 or placebo (54 +/- 12 kcal vs 59 +/- 13 kcal over a 6 hour period for RU 486 and placebo, respectively). 6) Baseline glucose concentrations were similar at baseline but PG was higher 90 minutes postprandial with RU 486: 5.3 +/- 1.7 mmol/L vs 3.7 +/- 0.8 mmol/L for placebo. 7) Plasma insulin was similar at baseline but it was significantly higher at 90 minutes postprandial after RU 486 (347 +/- 143 vs 241 +/- 73 pmol/L for RU 486 and placebo, respectively).

CONCLUSIONS

This study shows that acute inhibition of glucocorticoid action does not alter RMR and TRF in healthy men and that a mild deterioration of glucose tolerance follows the ingestion of RU 486.

Body fat and sympathetic nerve activity

Obesity, a major health problem in industrialized societies, is associated with a high incidence of cardiovascular complications such as hypertension, ischemic heart disease and stroke. However, the underlying mechanism relating obesity and these cardiovascular events is not clear. In lean subjects even slight elevations in plasma insulin concentration exert marked effects on the cardiovascular system, and these effects are directly related to insulin (rather than to insulin-induced stimulation of intermediary metabolism). Moreover, insulin's vascular effects are mediated both by the sympathetic nervous system and the L-arginine nitric oxide pathway. Obesity is characterized by sustained sympathetic activation (possibly related to chronic hyperinsulinemia) and an impaired vasodilator responsiveness to insulin. Although, undoubtedly many factors contribute to the increased incidence of cardiovascular complications in overweight subjects, sympathetic activation could be one important mechanism and either trigger acute events or--possibly in conjunction with an impairment in insulin-induced vasodilation--contribute to sustained elevation of arterial pressure.

Hypothalamic monoaminergic activity in obese Zucker rats in response to acute and chronic dietary stimuli

Monoamine neuromodulators link diet-related signals with autonomic responses in the regulation of energy balance. In view of evidence that sympathetically mediated expenditure is blunted in genetically obese (fa/fa) Zucker rats, a central defect in neurochemical activity has been proposed. This study tested the hypothesis that genotypic differences in monoaminergic activity in the hypothalamus underlie a blunted sensitivity of fa/fa rats to acute and chronic dietary stimuli, leading to less effective modulation of energy metabolism. Homozygous lean and obese Zucker rats were fed a protein-restricted (PR, protein = 8% of total dietary energy) or control (CF, 21% protein) diet from the age of 5 wk. At 10 wk of age, postprandial oxygen consumption (thermic effect of food, TEF) and levels of brown adipose tissue (BAT) uncoupling protein were significantly elevated (P < 0.0005) in PR vs. CF lean rats. Serotonin turnover was significantly (P < 0.0014) greater in the ventromedial hypothalamus (VMH) of meal-fed lean PR (vs. CF) rats, consistent with the suggestion that VMH serotonin release stimulates sympathetic outflow and may signal a heightened drive for protein intake. Serotonergic activity, BAT uncoupling protein, and TEF were not elevated in PR obese rats in response to a test meal, supporting the view that activation of sympathetic outflow in response to diet-related stimuli in fa/fa rats is impaired.

Abnormal regulation of hepatic glucocorticoid receptor mRNA and receptor protein distribution in the obese Zucker rat

This study examines the cellular distribution of glucocorticoid receptor (GR) protein and transcriptional activity of the GR gene in the liver of Zucker obese (fa/fa) rats. Immunoabsorption and Western blotting showed an increase in nuclear GR protein level but a decrease in cytosolic GR levels in the liver of 5-week old male obese rats (fa/fa) compared to their lean littermates (Fa/-). These changes were confirmed by receptor-ligand binding assays with [3H]-dexamethasone which showed a sixfold increase in average obese nuclear GR binding and a twofold reduction in cytosolic GR binding. HSP90, but not HSP70, levels were reduced in hepatic cytosol and increased in hepatic nuclei prepared from obese rats. Using Northern blot analysis of hepatic RNA, we demonstrated a twofold increase in hepatic mRNAs for GR, malic enzyme (ME), tyrosine aminotransferase (TAT), and glyceraldehyde 3-PO4-dehydrogenase in the obese rat. Increased transcription of GR and ME mRNAs in obese nuclei was indicated in nuclear run-on assays. These data suggest that there is increased nuclear localization of GR in the liver of obese rats and suggests that increased transcription of GR gene may contribute to this effect. The described changes may contribute to the abnormal regulation by glucocorticoids of some hepatic genes in the Zucker fa/fa rat.

Effect of dietary lipids and endocrine changes on polyunsaturated fatty acids in phospholipids of pancreas and brown adipose tissue of obese and lean rats

Obese (fa/fa) rats fed on control diet have lower proportions of linoleic acid (18:2n-6) and/or arachidonic acid (20:4n6) in IBAT and pancreas phospholipids compared with lean (Fa/-) rats. Lower stearic acid (18:0) to oleic acid (18:1n-9) mean ratios in fa/fa compared with Fa/- suggest enhanced delta 9-desaturase activity in the former. 18:2/20:4 mean ratios in pancreas, but not IBAT, are indicative of a reduced delta 6-desaturase activity in fa/fa rats. Absolute amounts of phospholipids (mg/unit tissue wt) were 2-fold greater in IBAT of fa/fa compared with Fa/- rats, irrespective of their diet. This was reflected in greater absolute amounts of 18:2n-6 and 20:4n-6 only in HSO and HTO fa/fa groups, but not in the control group. Adrenalectomy (Adx) or T3 treatment also modified phospholipid fatty acid composition of IBAT and pancreas phospholipids in animals fed on the control diet with fa/fa rats more sensitive to endocrine induced changes. In fa/fa rats T3 treatment increased docosahexaenoic acid (22:6n-3) in IBAT of both phenotypes compared with the control, but this effect was evident only in fa/fa and not Fa/- pancreas. T3 treatment also increased docosapentaenoic acid (22:5n-3) in IBAT from, both phenotypes, but no 22:5n-3 was evident in the pancreatic tissue of these animals. ADX also increased 22:6n-3 in the IBAT of fa/fa (Fa/- values were less than 1%) but not in the pancreas of fa/fa or Fa/-. ADX modified the relative proportions of 18:0 to 18:1 and 18:2 to 20:4 in IBAT and pancreas of fa/fa in a way that indicated decreased delta 9-desaturase and increased delta 6-desaturase activities; these effects tended toward normal again in pancreas of fa/fa rats on corticosterone replacement (CST).

Impaired insulin-induced sympathetic neural activation and vasodilation in skeletal muscle in obese humans

The sympathetic nervous system is an important regulatory mechanism of both metabolic and cardiovascular function, and altered sympathetic activity may play a role in the etiology and/or complications of obesity. In lean subjects, insulin evokes sympathetic activation and vasodilation in skeletal muscle. In obese subjects such vasodilation is impaired and, in turn, may contribute to insulin resistance. To examine the relationship between sympathetic and vasodilatory responses in skeletal muscle to hyperinsulinemia, we simultaneously measured muscle sympathetic nerve activity (MSNA) and calf blood flow at basal and during a 2-h hyperinsulinemic (6 pmol/kg per min) euglycemic clamp in eight lean and eight obese subjects. The major findings of this study are twofold: obese subjects had a 2.2 times higher fasting rate of MSNA, and euglycemic hyperinsulinemia, which more than doubled MSNA and increased calf blood flow by roughly 30% in lean subjects, had only a minor vasodilatory and sympathoexcitatory effect in obese subjects. In contrast, two non-insulin-sympathetic stimuli evoked comparably large increases in MSNA in lean and obese subjects. We conclude that insulin resistance in obese subjects is associated with increased fasting MSNA and a specific impairment of sympathetic neural responsiveness to physiological hyperinsulinemia in skeletal muscle tissue.

The response of brown adipose tissue mitochondrial glycerolphosphate acyltransferase to cold-exposure in hypothyroidism, after adrenalectomy and after treatment with cycloheximide

1. Exposure to cold has previously been shown to considerably increase the activity of the mitochondrial form of glycerolphosphate acyltransferase (GPAT) in brown adipose tissue (A. C. Darnley, C. A. Carpenter and E. D Saggerson, Biochem. J. 253, 351-355, 1988; J. R. D. Mitchell and E. D. Saggerson. Biochem. J. 277, 665-669, 1991). 2. Both adrenalectomy and chemically-induced hypothyroidism increased mitochondrial GPAT activity in rats maintained at 21 degrees C. This increase was similar to that caused by exposing rats to the cold (4 degrees C) for three days. Whereas exposure of hypothyroid rats to cold (4 degrees C) resulted in a further increase in GPAT activity, no further increase in activity was observed after exposure of adrenalectomized rats to the cold. 3. Administration of triiodothyronine (T3) to rats maintained at 21 degrees C had no effect on mitochondrial GPAT activity. 4. Prior treatment with cycloheximide abolished 60-70% of the increase in GPAT activity caused by cold-exposure.

Reduced sympathetic nervous activity. A potential mechanism predisposing to body weight gain

The sympathetic nervous system is recognized to play a role in the etiology of animal and possibly human obesity through its impact on energy expenditure and/or food intake. We, therefore, measured fasting muscle sympathetic nerve activity (MSNA) in the peroneal nerve and its relationship with energy expenditure and body composition in 25 relatively lean Pima Indian males (means +/- SD; 26 +/- 6 yr, 82 +/- 19 kg, 28 +/- 10% body fat) and 19 Caucasian males (29 +/- 5 yr, 81 +/- 13 kg, 24 +/- 9% body fat). 24-h energy expenditure, sleeping metabolic rate, and resting metabolic rate were measured in a respiratory chamber, whereas body composition was estimated by hydrodensitometry. Pima Indians had lower MSNA than Caucasians (23 +/- 6 vs 33 +/- 10 bursts/min, P = 0.0007). MSNA was significantly related to percent body fat in Caucasians (r = 0.55, P = 0.01) but not in Pimas. MSNA also correlated with energy expenditure adjusted for fat-free mass, fat mass, and age in Caucasians (r = 0.51, P = 0.03; r = 0.54, P = 0.02; and r = 0.53, P = 0.02 for adjusted 24-h energy expenditure, sleeping metabolic rate, and resting metabolic rate, respectively) but not in Pima Indians. In conclusion, the activity of the sympathetic nervous system is a determinant of energy expenditure in Caucasians. Individuals with low resting MSNA may be at risk for body weight gain resulting from a lower metabolic rate. A low resting MSNA and the lack of impact of MSNA on metabolic rate might play a role in the etiology of obesity in Pima Indians.

Dependence of the sympatho-adrenal activity on the nutritional status in corticosterone treated rats

1. An integrated sympatho-adrenal (SA) activity, expressed in terms of urinary catecholamines (CA) excretion, and direct sympathetic activity in the interscapular brown adipose tissue (IBAT), expressed in terms of noradrenaline (NA) turnover, were studied in corticosterone treated stock fed and sucrose overfed rats. 2. Corticosterone in stock fed rats significantly decreased both the rate of IBAT NA turnover and its mass as well as urinary NA excretion but did not change either IBAT NA content, urinary adrenaline excretion or adrenal CA content. 3. Sucrose overfeeding significantly increased SA activity, i.e. the rate of NA turnover in the IBAT and urinary excretion of CA. However, corticosterone did not inhibit the sucrose-induced sympathetic nervous system activation but potentiated the activity of adrenal medulla. 4. The results suggest that the effect of corticosterone treatment on the SA activity in rats is dependent, in addition to other factors, on the nutritional status of the animals.

Increased type II glucocorticoid-receptor numbers and glucocorticoid-sensitive enzyme activities in the brain of the obese Zucker rat

The possibility that the glucocorticoid-dependence of obesity of the obese fa/fa rat reflects on overactivity of glucocorticoids on the brain has been investigated by studies of enzyme activities and glucocorticoid type II (GR) receptors. The activity of 2 glucocorticoid-sensitive enzymes, glycerol-3-phosphate dehydrogenase and glutamine synthetase, were increased in the hippocampus of obese rats. In contrast malate dehydrogenase and pyruvate kinase, glucocorticoid-insensitive enzymes, were normal. Adrenalectomy of obese rats reduced glycerol-3-phosphate dehydrogenase activity to the level of lean rats. Scatchard analysis of [3H]corticosterone binding showed that the number of type II (GR) receptors was increased in the hypothalamus and hippocampus of obese rats but the affinity of these receptors was reduced. The evidence supports the hypothesis of excessive central glucocorticoid activity in the obese rat.

Effects of glucose, 2-deoxyglucose, phlorizin, and insulin on food intake of lean and fatty rats

Glucose, 2-deoxyglucose, phlorizin, and insulin were injected into the third ventricle of lean and fatty rats, and food intake recorded hourly for the next 6 h. In the lean rats, there was a significant but unimpressive decrease in food intake after the intraventricular injection of glucose, but there was no effect of glucose in the fatty rat. Phlorizin in the lowest dose (10 micrograms) increased the food intake in lean animals at 1 and 2 h, and all three doses increased it significantly at 6 h after intraventricular injection. The fatty rat, in contrast, showed no response to phlorizin. 2-Deoxyglucose showed a dose-related stimulation of food intake in the lean rats at 1, 2, 3, and 6 h after injection. In the fatty rat, there was no significant effect on food intake at any dose. The intraventricular injection of insulin had no effect on food intake in either the lean or fatty rats. These studies indicate that glucose-responding systems in the region of the third ventricle are defective in the fatty rat to signals that normally increase or decrease food intake in lean animals.

Defective metabolic effects of norepinephrine and insulin in obese Zucker rat brown adipose tissue

The effects of insulin and norepinephrine on oxygen consumption, lipolysis, and glucose transport were investigated in adipocytes isolated from brown adipose tissue (BAT) of adult (4-5 mo) lean (Fa/?) and obese (fa/fa) Zucker rats. Total BAT protein content and cytochrome oxidase activity were similar in both phenotypes, suggesting that obese rats have a normal mitochondrial content. Light and electron micrographs revealed that brown adipocytes from obese rats contained very large multilocular triglyceride droplets, but their mitochondrial ultrastructure was normal. Norepinephrine, when added in excess (1 microM), stimulated brown adipocyte respiration 8-10 times above basal levels both in lean and obese animals. However, dose-response experiments disclosed that the 50% effective concentration (EC50) was significantly higher in cells isolated from obese rats compared with lean ones (EC50 115 vs. 43 nM, P less than 0.05). The lipolytic sensitivity to norepinephrine was also reduced in adipocytes isolated from obese animals (EC50 83 vs. 12 nM, P less than 0.05). Addition of dibutyryl adenosine 3',5'-cyclic monophosphate to respiring obese rat brown adipocytes restored to normal the defective response to norepinephrine, suggesting that the reduction in catecholamine sensitivity resulted from a deactivation of the receptor-adenylate cyclase complex. On the other hand, the antilipolytic and antithermogenic actions of physiological concentrations of insulin were significantly reduced in obese BAT cells. The sensitivity and responsiveness of obese rat brown adipocytes for insulin-stimulated glucose transport were also markedly decreased (EC50 1 vs. 0.3 nM, P less than 0.05; maximal velocity 3-fold vs. 7-fold).(ABSTRACT TRUNCATED AT 250 WORDS)

Interaction of intracerebroventricular insulin and glucose in the regulation of the activity of sympathetic efferent nerves to brown adipose tissue in lean and obese Zucker rats

The effects of injection of insulin and glucose into the third cerebral ventricle on the firing rate of the sympathetic efferent nerves to intercapsular brown adipose tissue was investigated in anaesthetized lean and obese Zucker rats. Injection of insulin resulted in a dose-dependent (70-480 pmol) inhibition of nerve firing rate, whereas in combination with glucose (140 pmol of insulin and 139 nmol of glucose), insulin strongly potentiated the increase in firing rate seen with glucose alone. Although basal levels of nerve firing rates were lower in the obese rat, responses to insulin, glucose, and insulin plus glucose were qualitatively similar to those seen in the lean rat. These results are consistent with the hypothesis that insulin acts in the central nervous system as a physiological signal in the control of thermogenesis after feeding, and that this effector system is intact in the obese rat.

The effects of adrenalectomy, corticotropin releasing factor and vasopressin on the sympathetic firing rate of nerves to interscapular brown adipose tissue in the Zucker rat

The firing rate of the sympathetic efferent nerves to interscapular brown adipose tissue (IBAT) is lower in the obese rat compared with the lean rat. The present experiments show that adrenalectomy has no effect on nerve firing rate in the lean rat and a small but statistically nonsignificant effect in the obese rat. Injection of corticotropin releasing factor (CRF) into the IIIrd ventricle produced a dose dependent increase in the firing rate of the sympathetic nerves to interscapular brown adipose tissue (IBAT) in both lean and obese rats. The basal (unstimulated) level of firing was lower in the obese rat compared with the lean rat and remained significantly below lean values at each dose. The minimum dose of CRF to see an effect (125 ng) and the dose at which maximum effect on nerve firing rate was observed (500 ng) was similar in both genotypes. Injection of adrenocorticotropic hormone (ACTH) had no effect on nerve firing rate to IBAT. Central administration of vasopressin produced a significant increase in sympathetic firing rate to IBAT in both lean and obese rats. The temperature of IBAT was also significantly increased with vasopressin and the duration of the response was longer compared with CRF, but the minimum dose to see an effect was higher (2.5 micrograms). The response to vasopressin was greater in the obese rat compared with the lean rat but the maximum firing rate did not achieve levels observed in lean rats. Chronic infusion of CRF into the IIIrd ventricle of obese rats resulted in a reduction of food intake and body weight gain but IBAT mitochondrial GDP binding was unaltered by the treatment. These data are consistent with the hypothesis that the defect in the obese Zucker rat may be due to a glucocorticoid inhibition of CRF and/or vasopressin action in the CNS.

Interaction of adrenalectomy and fenfluramine treatment on body weight, food intake and brown adipose tissue

Three experiments have examined the interaction of adrenalectomy and fenfluramine on food intake, body weight and the binding of guanosine-5'-diphosphate (GDP) to interscapular brown adipose tissue (IBAT). In the first experiment, GDP-binding by IBAT mitochondria from adrenalectomized or sham-operated animals was measured for 3 hr after one of 3 doses of fenfluramine. Fenfluramine stimulated GDP-binding at lower doses in the adrenalectomized animals than in the controls. In the first chronic experiment, adrenalectomy prevented the restoration of normal food intake observed 8-10 days after the beginning of fenfluramine treatment. Adrenalectomy also increased weight loss and enhanced GDP binding to mitochondria from IBAT in rats treated with fenfluramine. In the second chronic experiment, the combination of fenfluramine and adrenalectomy led to a progressive weight loss, continuing hypophagia and stimulation of GDP-binding by IBAT, whereas rats treated with fenfluramine alone showed a recovery of food intake at a stabilized but lower body weight. These data are consistent with the hypothesis that adrenalectomy and fenfluramine disable two separate components of the food intake system and that when combined, produce a profound and persisting disturbance in energy or nutrient balance.

Studies on the sympathetic efferent nerves of brown adipose tissue of lean and obese Zucker rats

Previous studies have suggested that the sympathetic tone to brown adipose tissue (BAT) is reduced in the genetically obese (fa/fa) rat. The following experiments were designed to examine with electrophysiological techniques the activity of the sympathetic nerve innervating the interscapular BAT. The spontaneous activity of the efferent nerves was reduced in the obese (fa/fa) rat compared with the lean control. The activity of the nerve showed a linear relationship with changes in core temperature in both genotypes. Electrical stimulation of the ventromedial hypothalamus resulted in similar heat increments in BAT temperature for lean and obese, but this was associated with a smaller increase in nerve firing in the obese rat. Intracerebroventricular administration of glucose enhanced the nerve activity, whereas 2-deoxy-D-glucose reduced the nerve activity in both lean and obese rats. These data suggest that the sympathetic tone is suppressed in the genetically obese rat, but the response to temperature and central glucose metabolism is intact.

Experimental obesity: a homeostatic failure due to defective nutrient stimulation of the sympathetic nervous system

The basic hypothesis of this review is that studies on models of experimental obesity can provide insight into the control systems regulating body nutrient stores in humans. In this homeostatic or feedback approach to analysis of the nutrient control system, we have examined the afferent feedback signals, the central controller, and the efferent control elements regulating the controlled system of nutrient intake, storage, and oxidation. The mechanisms involved in the beginning and ending of single meals must clearly be related to the long-term changes in fat stores, although this relationship is far from clear. Changes in total nutrient storage in adipose tissue can arise as a consequence of changes in the quantity of nutrients ingested in one form or another or a decrease in the utilization of the ingested nutrients. A change in energy intake can be effected by increased size of individual meals, increased number of meals in a 24-hour period, or a combination of these events. Similarly, a decrease in utilization of these nutrients can develop through changes in resting metabolic energy expenditure which are associated with one of more of the biological cycles such as protein metabolism, triglyceride for glycogen synthesis and breakdown, or maintenance of ionic gradients for Na+ + K+ across cell walls. In addition, differences in energy expenditure related to the thermogenesis of eating or to the level of physical activity may account for differences in nutrient utilization.

Glucocorticoids modulate beta-adrenoceptor subtypes and adenylate cyclase in brown fat

Thermogenesis in brown adipose tissue (BAT) serves as a regulator of body temperature and weight maintenance. Thermogenesis can be stimulated by catecholamine activation of adenylate cyclase through the beta-adrenergic receptor. Glucocorticoids potentiate the action of catecholamines in some tissues by increasing the expression of beta-adrenergic receptors. Paradoxically, glucocorticoids suppress and adrenalectomy enhances BAT thermogenesis. To further study the reasons for this discrepancy, we assessed the effects of methylprednisolone administration, adrenalectomy, and adrenalectomy with corticosterone replacement on adenylate cyclase activity in BAT and on beta-adrenergic receptor density in lungs and BAT of rats. In lungs, the density of the beta 2-adrenergic receptor subtype increases after methylprednisolone administration and decreases after adrenalectomy. There was no change in BAT receptor density, but isoproterenol-, NaF-, and forskolin-stimulated adenylate cyclase activity was reduced by 20-35% after methylprednisolone treatment. There was a two- to threefold increase in adenylate cyclase activity after adrenalectomy, which was reversed by corticosterone administration. These data suggest that one mechanism by which glucocorticoids regulate BAT thermogenesis is by modulating the beta-adrenergic pathway at the level of adenylate cyclase activation.

Effects of chronic administration of benfluorex to rats on the metabolism of corticosterone, glucose, triacylglycerols, glycerol and fatty acid

(1) Rats were fed on diets enriched with sucrose, beef tallow or corn oil and treated for 11-16 days with 50 mg of benfluorex per kg of body weight. By these times the growth rate and food intake were not significantly different from those of control rats. (2) Benfluorex approximately halved the concentration of circulating triacylglycerol in rats fed the beef tallow or sucrose diets. (3) It did not significantly alter the total lipoprotein lipase activity in diaphragm, heart and adipose tissue. (4) The clearance of triacylglycerols from chylomicrons exhibited two t 1/2 values of about 0.6 and 6.9 min in rats fed the beef tallow diet. Benfluorex did not significantly alter these values. (5) Benfluorex did not significantly alter the rate of appearance of triacylglycerol in the blood of rats injected with Triton WR 1339 to block triacylglycerol uptake. It did, however, decrease the rise in circulating glucose which presumably resulted from the stress of the procedure. (6) Benfluorex decreased the extent and duration of the rise in serum corticosterone when rats maintained on the corn oil diet were fed acutely with fructose. It also decreased the circulating concentrations of glycerol, triacylglycerol and glucose after fructose feeding. (7) Rats fed on the corn oil diet and then treated with benfluorex had lower concentrations of circulating glucose, triacylglycerol, glycerol and fatty acids after being injected with 2-deoxyglucose. (8) It is proposed that some of the long-term hypoglycaemic and hypotriglyceridaemic effects of benfluorex could be mediated indirectly through changes in endocrine balance, perhaps via the serotonergic system and in particular, by decreasing the effects of stress hormones relative to insulin. The implications of these findings are discussed in relation to controlling metabolism in stress conditions and for the management of obesity, diabetes and atherosclerosis.

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.

Response of brown adipose tissue to electrical stimulation of hypothalamic centres in intact and adrenalectomized Zucker rats

Electrical stimulation of the ventromedial nucleus of the hypothalamus (VMN) increased brown adipose tissue (BAT) temperature in lean and obese Zucker rats, whereas stimulation of the paraventricular nucleus (PVN) was without effect in either genotype, before or after adrenalectomy. The prolonged duration of the increase in BAT temperature in the obese (fa/fa) rat observed after VMN stimulation was normalized after adrenalectomy.

Effect of lateral hypothalamic lesion on brown adipose tissue of Zucker lean and obese rats

Acute (10-day) lateral hypothalamic (LH) lesion induced a reduction of food intake in both lean and obese Zucker rats which averaged about 50% over the course of the first 10 days. The aphagia associated with a fall in body weight in both genotypes which was greater than their respective pair-fed controls, indicating a change in energetic efficiency. The reduced level of BAT protein, mitochondria and GDP binding observed in the obese rat was restored after LH lesion, suggesting the reestablishment of a normal sympathetic drive to the tissue. The markedly lower plasma insulin concentration in the LH lesioned obese rat is consistent with a reduction in parasympathetic activity in these animals. Food restriction in the sham lean rat reduced BAT protein content and mitochondrial GDP binding, whereas no such changes were observed in the food restricted obese rat. This demonstrates the insensitivity of the obese rat to dietary signals and may imply that LH lesion restores diet-induced BAT thermogenesis in the obese rat.

Effect of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) on thermogenesis in brown adipose tissue of rats

Male Sprague-Dawley rats were treated with a usually lethal dose of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD; 125 micrograms/kg i.p. in corn oil) or with vehicle alone. Two, 4, and 8 days after treatment the temperature of interscapular brown adipose tissue (IBAT) was monitored during venous infusion of norepinephrine (480 ng/min) for 60 min. The temperature response was about 1.0-1.5 degrees C within 1 h in vehicle-treated, pair-fed and ad libitum-fed controls. In TCDD-treated animals, the response of IBAT decreased with time after TCDD dosage, amounting to only 0.3 +/- 0.1 degree C at 8 days after dosing (differences significant with respect to both controls, P less than 0.05). GDP binding to IBAT mitochondria (a measure of thermogenic capacity) was unchanged in all groups, indicating that the reduced thermogenic response was probably not caused by an impairment of the mitochondrial uncoupling process by TCDD.

Normal levels of serum corticosterone and hepatic glucocorticoid receptors in obese (fa/fa) rats

In an attempt to understand the hyper-responsiveness to glucocorticoids that is characteristic of genetically obese fa/fa rats, we have measured the levels of free corticosterone in serum from lean and obese rats as well as the number of "cytosolic" and "nuclear" binding sites in livers of these rats. Both the lean and obese rats had similar amounts of free corticosterone available for biological activity at 4 weeks and 10 weeks of age. Measurement of glucocorticoid binding to hepatic glucocorticoid receptors failed to show any differences between genotypes leading to the suggestion that the abnormal glucocorticoid response in obese rats may be due either to post-receptor defects or to a permissive action of the steroid in the expression of the fa/fa genotype.

Hypothalamic control of brown adipose tissue in Zucker lean and obese rats. Effect of electrical stimulation of the ventromedial nucleus and other hypothalamic centres

Electrophysiological stimulation of the hypothalamic ventromedial nucleus (VMN) resulted in an increase in interscapular brown adipose tissue (BAT) temperature in both lean and obese (fa/fa) rats. Graded stimulations resulted in progressively larger temperature increases in both lean and obese (fa/fa) groups. Both intraperitoneal injection of propranolol and surgical denervation (but not sham denervation) abolished the increase in BAT temperature following VMN stimulation, in both lean and obese (fa/fa) groups. Electrical stimulation of the supraoptic region, and certain anterior hypothalamic regions also resulted in increases in BAT temperature of lean and obese (fa/fa) rats, but stimulation of the dorsomedial nucleus and regions of the lateral hypothalamus did not affect BAT temperature. All hypothalamic regions capable of activating BAT gave a similar maximum rise in temperature for a given stimulus in lean and obese (fa/fa) rats. These results suggest that the efferent sympathetic pathway from the VMN and other hypothalamic regions of BAT is normal in the obese (fa/fa) rat.

Increased sensitivity of the genetically obese mouse to corticosterone

Adrenalectomy normalizes many abnormalities of the obese (ob/ob) mouse. The high corticosterone concentration in blood may account in part for development of obesity and other abnormalities in the ob/ob mouse. Our objective was to determine dose-response relationships for the effect of corticosterone on the obesity. Lean and ob/ob mice were adrenalectomized or sham-operated at 4.5 wk of age. Adrenalectomized mice received 100 mg implants of cholesterol containing corticosterone (0, 2, 5, 20, or 50 mg) at 8.5 wk of age and were killed at 10.5 wk of age. In ob/ob mice, but not in lean mice, low physiological levels of serum corticosterone (up to 10 micrograms/dl) markedly increased body weight gain, food intake, and serum insulin. They also increased white and brown adipose tissue weights and decreased brown adipose tissue mitochondrial GDP binding. Higher levels of corticosterone (12-22 micrograms/dl) increased body weight gain, white and brown adipose tissue weights, and serum insulin and suppressed brown adipose tissue mitochondrial GDP binding in lean mice also, although in most cases to a lesser extent than in ob/ob mice, but were still without effect on food intake. Only very high levels of corticosterone (approximately 30 micrograms/dl) increased food intake in lean mice. Hyperglycemia was induced in ob/ob, but not lean, mice only at concentrations of corticosterone greater than 17 micrograms/dl. Thermoregulation was unaffected by serum corticosterone at levels from 0 to 30 micrograms/dl in both ob/ob and lean mice. Thus the ob/ob mouse is excessively sensitive and responsive to an effect of physiological levels of corticosterone that results in hyperphagia, hyperinsulinemia, and increased weight gain.(ABSTRACT TRUNCATED AT 250 WORDS)

Corticosterone inhibition of the intracerebroventricular effect of 2-deoxy-D-glucose on brown adipose tissue thermogenesis

The effects on food intake, blood glucose and the binding of guanosine 5-diphosphate (GDP) to mitochondria from interscapular brown adipose tissue (IBAT) were examined following the injection of 2-deoxy-D-glucose (2-DOG) into the third ventricle of the brain. Microinjections of 2-DOG increased food intake and blood glucose within 30 to 60 min, but binding of GDP to mitochondria from IBAT, on the other hand, was reduced. The order of sensitivity to 2-DOG was IBAT--feeding--hyperglycemia. Implantation of a 50 mg pellet of corticosterone inhibited the stimulatory effect of 2-DOG on feeding and hyperglycemia and prevented the inhibition of GDP binding to mitochondria from IBAT. These data are consistent with the hypothesis that glucocorticoid may inhibit glucose metabolism at multiple sites in the hypothalamus.

Thermogenic capacity and brown fat in rats exercise-trained by running

Brown adipose tissue, a major effector of nonshivering thermogenesis (NST) in mammals, is activated by the sympathetic neurotransmitter norepinephrine. Prolonged increases in norepinephrine levels, whether elicited by cold exposure or exogenous application of catecholamines, lead to increased NST and increased thermogenic capacity of brown fat. Exercise training is also accompanied by enhanced sympathetic activity. The possibility exists that this enhancement may alter brown fat function. The present study was designed to assess the effect of a running exercise regimen on whole animal NST and the in vivo response of brown fat. Rats were trained by running on a treadmill (an average of 17 m/min, 0 degrees incline, for 90 min/d) for a period of at least 6 weeks. Whole animal NST capacity was assessed by monitoring oxygen consumption in response to infusion of norepinephrine. As a measure of the contribution of brown fat to whole body NST, the mass and norepinephrine-stimulated blood flow (microsphere technique) to the tissue were measured. None of these variables differed between the exercised (n = 10) and sedentary (n = 10) groups. That is, there were no significant differences between the two groups with respect to resting oxygen consumption, norepinephrine-induced oxygen consumption, brown fat mass, and brown fat blood flow--whether expressed per gram of tissue or as total tissue blood flow (ie, tissue mass X blood flow per gram). Further study is needed to explain the differential responses of brown fat to the increased sympathetic activity occurring during exercise v that occurring during cold exposure.