Attenuated cold-induced increase in mRNA for uncoupling protein in brown adipose tissue of obese (ob/ob) mice

The level of mRNA for uncoupling protein was measured in brown adipose tissue of young (8-10 weeks) and old (11 months) lean and ob/ob mice using a cDNA clone constructed previously. The level of poly(A)+ RNA was also measured using an oligo(dT)18 probe. Mice were kept at 28 degrees C or exposed to 14 degrees C for 12 h. The level of mRNA for uncoupling protein was normal in brown adipose tissue of younger obese mice but reduced in brown adipose tissue of old obese mice. The cold-induced absolute increase in uncoupling protein mRNA was smaller in obese mice, regardless of age. It is concluded that the known attenuation of the acute thermogenic response of brown adipose tissue of the ob/ob mouse to cold is accompanied by a similar attenuation of the initiation of the trophic response. It is likely, however, that these defects are secondary to the chronic reduction in sympathetic nervous system activity in brown adipose tissue of the ob/ob mouse, which results in a functional atrophy of the tissue.     

Adrenalectomy increases norepinephrine turnover in brown adipose tissue of obese (ob/ob) mice

The hyperphagia and rapid body weight gain normally observed in young obese (ob/ob) mice were abolished by removal of their adrenal glands, whereas food intake and weight gain of lean mice were not significantly affected by adrenalectomy. Adrenalectomy lowered body energy density (kcal/g carcass) in obese mice more than could be attributed to reduced food intake per se, suggesting that their energy expenditure was also increased. In control obese mice, low stimulation of brown adipose tissue by the sympathetic nervous system, as indicated by the low fractional rates of norepinephrine (NE) turnover in their brown adipose tissue may have contributed to the reduced energy expenditure in these animals. Adrenalectomy increased the rates of NE turnover in brown adipose tissue of obese mice to rates nearly equal to those observed in lean mice without affecting NE turnover in this tissue of lean mice. Likewise, removal of the adrenals normalized the low rates of NE turnover in hearts of obese mice without affecting lean mice. Rates of NE turnover in two other organs, white adipose tissue and pancreas, of control and adrenalectomized obese mice were similar to rates observed in lean counterparts. The adrenal may thus contribute to both the hyperphagia and the low energy expenditure by brown adipose tissue that together cause gross obesity in ob/ob mice.     

Plasma B-cell tropin (ACTH22-39) concentration in lean and obese (ob/ob) mice and lean and obese (fa/fa) Zucker rats

A method has been developed for the measurement of plasma concentrations of Beta-cell tropin (BCT), which is a potent insulinotropic and lipogenic peptide secreted by the pituitary. The method was employed to compare plasma Beta-cell tropin concentrations between lean and genetically obese (ob/ob) mice and between lean and genetically obese (fa/fa) Zucker rats. The plasma concentration in lean mice was 0.17 +/- 0.02 (5)nmole/l (mean +/- SEM, n = 5), while that in obese (ob/ob) mice was significantly higher, being 2.88 +/- 1.13 (5)nmole/l. The plasma BCT concentration in Zucker rats was 0.14 +/- 0.02 (15)nmole/l, while that in obese Zucker (fa/fa) rats was significantly higher, being 1.69 +/- 0.72 (16)nmole/l. These results explain previously observed differences in the Beta-cell tropin-like biological activity in plasma from lean and obese animals, and support the hypothesis that the peptide has a role in the development of hyperinsulinaemia and obesity.     

Adenylate cyclase activity in brown adipose tissue of the genetically obese (ob/ob) mouse

The activation of brown adipose tissue adenylate cyclase by catecholamines was studied in genetically obese (ob/ob) and lean mice. In obese mice, the maximum activation of the enzyme by several beta-adrenergic agonists was only two-thirds that in lean mice and, as an activator, noradrenaline was only one-eighth as potent. The adenylate cyclase was also less responsive to guanine nucleotides. In these respects, the defect in catecholamine-stimulated adenylate cyclase was similar in both white and brown adipose tissue of the obese mouse. The enzyme in brown adipose tissue differed from that in white adipose tissue in its sensitivity to other beta-adrenergic agonists and in its requirement for Mg2+. It is suggested that this abnormal catecholamine-activated adenylate cyclase in brown adipose tissue may be relate to the thermoregulatory defect of the obese mouse and hence may contribute to the obesity syndrome.     

Nonreceptor-mediated responses of adenylate cyclase in membranes from liver, muscle, and white and brown adipose tissue of obese (fa/fa) and lean (Fa/) Zucker rats

Adenylate cyclase activity was determined in membranes of liver, muscle, white adipose tissue, and brown adipose tissue (BAT) of lean (Fa/) and obese (fa/fa) Zucker rats. Responses were monitored following beta-adrenergic receptor stimulation and addition of GTP, GTP gamma S, or forskolin. beta-Adrenergic responses in liver, white adipose tissue, and BAT were lower in obese than in lean animals. No such difference was observed in muscle membranes. Production of cAMP after addition of guanine nucleotides was lower in liver and white adipose tissue membranes from obese rats compared with their lean littermates. Synthesis of cAMP in muscle membranes of obese animals after addition of GTP was either not different, or slightly higher, than that observed in muscle membranes from lean animals. Furthermore, production of cAMP after forskolin addition to muscle membranes of obese rats was significantly higher than that observed from lean rats under the same conditions. Interestingly, BAT membranes of obese rats were significantly more sensitive to guanine nucleotide activation than those of lean animals. The results confirm recent findings indicating inferior function of G proteins in liver plasma membranes of obese Zucker rats, and extend this observation to adipose tissue. The present results further suggest that the "nonreceptor" components (e.g., G proteins) responsible for the activation of adenylate cyclase in BAT membranes of obese rats are more responsive to stimulation than those of lean animals. Such sensitivity may be related to and perhaps compensate for the reduced thermogenic activity in the obese Zucker rat during the development of obesity.     

Influence of restricted food intake on brown adipose tissue function in genetically obese mice (genotype, ob/ob)

Measurements were made of cytochrome c oxidase activity and the GDP-binding capacity of mitochondria in brown adipose tissue of genetically obese mice and wild-type siblings, to estimate the thermogenic capacity of the tissue. The binding capacity was decreased in ad libitum fed obese animals compared with wild-type animals. Limited feeding of obese animals to restrict their body weight caused a large increase in the binding capacity of the tissue, which was greater than that in wild-type animals fed either ad limitum or on a limited diet. The decreased binding capacity of brown adipose tissue mitochondria in obese mice appears to be a consequence of ad libitum feeding and therefore not a cause of the obesity. Limit feeding of obese animals also corrected their characteristic hypothermia at low ambient temperature. The large increase in the thermogenic capacity of brown adipose tissue in obese animals, induced by limited feeding, may account for the vital improvement of their thermoregulation. However, close similarities were found between obesity hypothermia and hypothermia induced in wild-type animals by restraint. It is suggested that changes in posture caused by obesity, resulting in increased loss of body heat, may be important in the development of obesity hypothermia. Obese animals fed less than wild-type grained more weight than wild-type animals, indicating that the high thermogenic capacity of their brown adipose tissue did not function to regulate their calorie intake.     

Calcitonin mRNA activity in young obese (fa/fa) Zucker rats

Alterations in both calcitonin (CT) secretion and plasma calcium were recently described in adult obese Zucker rats. We have investigated the CT biosynthetic activity of thyroid glands in 30-day-old obese Zucker rats (fa/fa), and their controls (Lean). Plasma calcium level was significantly increased (+0.6 mg/dl) in obese animals, but plasma phosphate was unchanged. Plasma CT levels measured by radioimmunoassay (RIA) were significantly decreased in fatty (0.50 +/- 0.03 vs 0.68 +/- 0.03 ng/ml in Leans; P less than 0.001), but thyroidal hormone content was not different between Lean and fatty rats (68.7 +/- 5.1 in Leans vs 60.5 +/- 3.6 ng/gland in fatty rats). mRNA was extracted from 10 thyroids, and translated in a rabbit reticulocyte lysate (NEN) in the presence of [35S]methionine. After polyacrylamide gel electrophoresis, specific immunoprecipitates were autoradiographed and quantified by integration. A 50% decrease in translatable CT mRNA was observed in fatty rats. In basal conditions, the biosynthetic activity of C cells in obese rats correlates with the secretion rate of the hormone in the face of unchanged thyroidal CT contents.     

Altered expression of hepatic CYP2E1 and CYP4A in obese, diabetic ob/ob mice, and fa/fa Zucker rats

Hepatic levels of the cytochrome P450 (CYP) proteins 2E1 and 4A are often increased in obesity, diabetes and fasting. In such states of nutritional imbalance, CYPs 2E1 and 4A may play a more significant role in fatty acid oxidation. In order to more fully characterize the regulation of CYP2E1 and CYP4A in obesity and obesity-related (type II) diabetes, we analyzed the hepatic expression of CYP2E1 and CYP4A in ob/ob mice which are leptin deficient, and fa/fa Zucker rats which have defective leptin receptor function. CYP2E1 protein and mRNA were either unchanged or reduced in both models. Conversely, expression of murine Cyp4a10 and 4a14 in the obese mice, and 4A2 in the male fatty Zucker rat, were greatly increased. The levels of other CYP4As were either unchanged or reduced. These results show that CYP2E1 is not inevitably increased by obesity and diabetes and indicate differential regulation of CYP4A subfamily genes in rodent models. Further, they implicate leptin receptor signaling as a factor that may modulate expression of CYP gene products involved in fatty acid oxidation.     

Modulation of gluconeogenesis by epinephrine in hepatocytes isolated from genetically obese (fa/fa) Zucker rats

The obese (fa/fa) Zucker rat shows an impaired sympathetic tone which is accompanied by an altered thermogenesis and changes in both lipid and carbohydrate metabolism. In this work, we have investigated the regulatory effects of epinephrine on the rate of gluconeogenesis from a mixture of [(14)C]lactate/pyruvate, in hepatocytes isolated from obese (fa/fa) rats and their lean (Fa/-) littermates. Epinephrine caused a dose-dependent stimulation of the rate of [(14)C]glucose formation in both obese and lean rat hepatocytes, the maximal rates being five- and twofold higher than the corresponding basal values (0.50 +/- 0.06 and 1.96 +/- 0.15 micromol of lactate converted to glucose/g of cell x 20 min, respectively). No significant differences were found between the calculated half-maximal effective concentrations (EC(50)) for epinephrine in obese and lean rat liver cells. The stimulation of gluconeogenesis by epinephrine was accompanied by a decrease in the cellular concentration of fructose 2,6-bisphosphate, and an inactivation of both pyruvate kinase and 6-phosphofructo 2-kinase, to similar extents in both types of hepatocytes. Epinephrine also significantly raised the hepatocyte content of cyclic AMP, with about a twofold increase at a saturating concentration of the catecholamine (1 microM), in both lean and obese rat liver cells. However, at suboptimal concentrations of epinephrine, the rise in cyclic AMP levels was significantly less marked in obese than in lean rat hepatocytes. Nevertheless, no significant differences were found in either the affinity or the number of beta-adrenergic receptors, in radioligand binding studies carried out in liver plasma membranes obtained from obese and lean Zucker rats. In conclusion, compared to the corresponding basal values, the response of gluconeogenesis from lactate to the stimulatory effect of epinephrine is higher in obese (fa/fa) than in lean (Fa/-) Zucker rat hepatocytes, with no significant differences in the calculated EC(50) values for this hormone. This occurs in spite of an apparent decreased sensitivity of the adenylate cyclase system to the stimulatory effect of epinephrine in obese rat liver cells.     

The influence of GDP on Ca2+ uptake by mitochondria of brown adipose tissue from lean and genetically obese (ob/ob) mice.

The specific binding capacity for purine nucleotides in brown-adipose-tissue mitochondria is thought to indicate the capacity of the proton-conductance pathway which leads to uncoupled respiration. This functional relationship was investigated in studies measuring initial Ca2+-uptake rates and membrane potential in the presence or absence of GDP in brown-adipose-tissue mitochondria with different GDP-binding capacities. The mitochondria from pre-obese and obese ob/ob mice were less able than those from lean control mice to dissipate membrane potential in the absence of GDP. Mitochondria from the obese animals also maintained a higher Ca2+-uptake rate without GDP in comparison with the rate found with mitochondria from the lean mice. The GDP-dependence of Ca2+ uptake was greater in brown-adipose-tissue mitochondria from cold-adapted animals than in those from animals kept at 22 degrees C or at thermoneutrality (33 degrees C). It is concluded that Ca2+-uptake rate and membrane-potential values are depressed in the absence of GDP and indicate indirectly the influence of purine nucleotides on maintaining the proton electrochemical gradient in brown-adipose-tissue mitochondria. It is also apparent that the lower GDP-binding capacity in mitochondria from ob/ob mice is related to a decreased ability to dissipate the proton electrochemical gradient.     

Measurement of brown adipose tissue uncoupling protein by enzyme linked immunosorbent assay

Antibody to uncoupling protein (UCP) purified from rat brown adipose tissue (BAT) was raised in rabbits and an enzyme linked immunosorbent assay was developed. The antiserum did not cross-react with other mitochondrial proteins from BAT and from other tissues but cross-reacted with UCP from hamster, guinea pig and mouse. The assay is capable of detecting 5 ng of UCP. Using this assay and a crude mitochondrial preparation, UCP content of BAT was shown to increase during cold adaptation.     

Decreased responsiveness of gluconeogenesis to the modulation by sulfonylureas in hepatocytes isolated from obese (fa/fa) Zucker rats

The influence of the hypoglycemic agent glipizide (0-100 microM) on the rate of gluconeogenesis from lactate, as well as on the levels of fructose 2,6-bisphosphate, has been investigated in hepatocytes isolated from genetically obese (fa/fa) Zucker rats and from their corresponding lean (Fa/-) littermates. As compared to lean rat hepatocytes, liver cells isolated from obese animals showed a lower rate of basal gluconeogenesis (0.9 +/- 0.2 vs 5.4 +/- 0.5 micromol of lactate converted to glucose/g cell x 30 min, n=4) and higher levels of fructose 2,6-bisphosphate (11.5 +/- 1.0 vs 5.9 +/- 0.4 nmol/g cell, n=8-9). In lean rat hepatocytes, the presence of glipizide in the incubation medium caused a dose-dependent inhibition of the rate of lactate conversion to glucose (maximal inhibition=46%; EC50 value=26 microM), and simultaneously raised the cellular content of fructose-2,6-bisphosphate (maximal increment=40%; EC50 value=10 microM). In contrast, in hepatocytes isolated from obese rats, the inhibition of gluconeogenesis and the increment in fructose-2,6-bisphosphate levels elicited by glipizide were significantly reduced (maximal effects of 22 and 13%, respectively). Similarly, the activation of glycogen phosphorylase and the increase in hexose 6-phosphate levels in response to glipizide were less marked in obese rat hepatocytes than in liver cells isolated from lean animals. These results demonstrate that the efficacy of sulfonylureas as inhibitors of hepatic gluconeogenesis is reduced in the genetically obese (fa/fa) Zucker rat.     

Effects of ciglitazone on insulin resistance and thermogenic responsiveness to acute cold in brown adipose tissue of genetically obese (ob/ob) mice

Genetically obese (ob/ob) mice develop a marked insulin resistance in brown adipose tissue soon after weaning, and this is paralleled by a fall in the acute activation of the mitochondrial proton conductance pathway in the tissue on cold exposure. Treatment of ob/ob mice with ciglitazone, a new oral hypoglycaemic, led to a restoration of insulin sensitivity in brown adipose tissue. The amelioration of insulin resistance was accompanied by a normalization of the acute, cold-induced increase in mitochondrial GDP binding. These results support the hypothesis that the development of insulin resistance in brown adipose tissue is an important factor in the impaired thermogenic responsiveness of obese mice.     

The development of insulin resistance in brown adipose tissue may impair the acute cold-induced activation of thermogenesis in genetically obese (ob/ob) mice

Genetically obese (ob/ob) mice develop insulin resistance in brown adipose tissue during the fifth week of life. Prior to this, at 26 days of age, oh/oh mice show a substantial increase in GDP binding to brownadipose-tissue mitochondria during acute cold exposure. When insulin resistance in brown fat develops, by 35 days of age, the increase in GDP binding in response to cold is markedly reduced. Studies with 2-deoxyglucose suggest that insulin resistance in brown adipose tissue could impair thermogenic responsiveness during acute cold exposure by limiting the ability of the tissue to take up glucose.     

Exercise training increases glucose transporter protein GLUT-4 in skeletal muscle of obese Zucker (fa/fa) rats

The present study examined the level of GLUT-4 glucose transporter protein in gastrocnemius muscles of 36 week old genetically obese Zucker (fa/fa) rats and their lean (Fa/-) littermates, and in obese Zucker rats following 18 or 30 weeks of treadmill exercise training. Despite skeletal muscle insulin resistance, the level of GLUT-4 glucose transporter protein was similar in lean and obese Zucker rats. In contrast, exercise training increased GLUT-4 protein levels by 1.7 and 2.3 fold above sedentary obese rats. These findings suggest endurance training stimulates expression of skeletal muscle GLUT-4 protein which may be responsible for the previously observed increase in insulin sensitivity with training.     

Regulation of the uncoupling protein in brown adipose tissue

Presumptive evidence suggests that the brown fat mitochondrial uncoupling protein, thermogenin, is involved in the mechanism of stimulation of respiration by norepinephrine in the intact tissue. Conflicting data have been reported which suggest involvement of either adenine nucleotides, or fatty acids, or long chain acyl-CoA, or protons in the physiological regulation. We measured the electrical potential gradient across the mitochondrial membrane (delta psi m) in control cells and in cells stimulated with norepinephrine, using the accumulation of lipophilic cation, tetraphenylphosphonium, as an indicator of the potential gradient. The value of delta psi m in the cells in the control state is 116 mV, and in the hormonally stimulated state it is 56.6 mV. This supports the view that the protein is involved in the mechanism of hormone action. Other studies were designed to distinguish between the effects of fatty acids and ATP levels on the uncoupling protein in isolated mitochondria and in the adipocytes. ATP levels and fatty acid levels inside intact cells were independently varied using oligomycin or external fatty acids. Their effect on thermogenin was monitored as the capacity of the cells for reverse electron transport from durohydroquinone. The results suggest that ATP modulates the activity of thermogenin, while fatty acids can alter the relationship between ATP and thermogenin activity such that the protein appears to be activated at a higher cellular ATP level in the presence of fatty acids than in their absence.     

Secretion of calcitonin in the genetically obese Zucker rat (fa/fa)

Previously we found that adult Zucker fatty rats have C-cell hyperplasia and increased thyroidal calcitonin (CT) compared to lean controls. In this study we have evaluated both secretion of CT and responsiveness to CT in order to see whether they, too, were altered. Fat rats and lean littermates, 13-15 months old, were used. CT secretion was provoked by (1) feeding for 2 hr after an 18-hr fast, (2) giving pentagastrin iv, and (3) injecting CaCl2 iv. CT was measured by radioimmunoassay. Responsiveness to CT was examined by giving porcine or salmon CT iv and measuring serum Ca 1-3 hr later. For CT secretion, compared to leans the fat rats showed (1) higher fasting serum Ca and CT and a greater rise in CT after feeding, (2) a similar 5- to 10-fold increase in CT after iv pentagastrin, and (3) a greater rise in both serum Ca and CT at various times between 5 min and 3 hr after iv CaCl2. For CT responsiveness, fat and lean rats were equally responsive to iv CT in terms of the fall in plasma Ca 1-3 hr later. The results show that fat rats can secrete as much or more CT in response to provocative stimuli as lean rats and that they appear normally responsive to injected CT. Therefore, inability to release CT and insensitivity to CT do not underly the C-cell hyperplasia, increased thyroidal CT, and increased circulating CT in the fat rat.