Number of mice per cage influences uncoupling protein content of brown adipose tissue.

The effect of housing density of mice on the thermogenic state and capacity of their brown adipose tissue was studied. Mice were housed one, two, or six per cage at 28 degrees C for 15 days. Increased housing density suppressed the thermogenic capacity of brown adipose tissue (decreased the total amount of uncoupling protein) and decreased the thermogenic state of brown adipose tissue mitochondria (decreased GDP binding). A density of six mice per cage had a greater effect than a density of two mice per cage. The size of brown adipose tissue (wet weight and protein content), the content of mitochondria in it (cytochrome oxidase content), and the total activity of thyroxine 5'-deiodinase were not altered by housing density. We conclude that even at a temperature close to thermoneutrality (29-33 degrees C for the mouse), the occurrence of social thermoregulation (huddling) reduces the requirement for brown adipose tissue thermogenesis and results in a reduction in its thermogenic capacity. It is clearly of importance that the design of studies of mouse brown adipose tissue take into account not only the temperature at which the mice are housed, but also the number of mice housed per cage.     

Postnatal appearance of uncoupling protein and formation of thermogenic mitochondria in hamster brown adipose tissue

Brown adipose tissue of developing hamster was characterized by western blotting, enzyme activity measurements and immunoelectron microscopy. During the first postnatal week the tissue contained significant amounts of differentiating mitochondria and comparable quantities of active cytochrome oxidase and ATP synthase. The uncoupling protein appeared on the 7/8th day and its specific content increased 80-times between day 8 and day 17. In parallel, the specific content and activity of cytochrome oxidase increased 3-times but ATP synthase decreased 2-times. The total content of uncoupling protein and of cytochrome oxidase in interscapular brown adipose tissue increased 360- and 11-times, respectively. Analysis of isolated mitochondria showed that the observed differences result mainly from changes of the enzymic equipment of the mitochondrial membrane. During the same interval, propylthiouracil-insensitive "type II' thyroxine 5'-deiodinase activity in brown adipose tissue increased 10-times. It was concluded that the thermogenic function of the hamster brown adipose tissue develops after the first postnatal week due to highly differentiated synthesis of mitochondrial proteins leading to replacement of preexisting, uncoupling protein-lacking nonthermogenic mitochondria by thermogenic ones, similarly as shown in brown adipose tissue of the embryonic mouse and rat (Houst?k, J., et al. (1988) Biochim. Biophys. Acta 935, 19-25).     

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

Mild cold acclimation (22°C, 3 weeks) of hairless mice was shown to increase 5-fold the brown adipose tissue uncoupling protein content in immunodeficient BALB/c nu/nu mice, but by only 2.3-fold in immunocompetent BFU mice. The difference in activation of brown adipose tissue thermogenic capacity was due to a 2-fold increase in the content of brown adipose tissue in nu/nu mice only, which was paralleled by an increase in brown adipose tissue protein but not DNA content. Likewise, only in nu/nu mice the cold acclimation increased the reaction of natural killer cells in blood and peritoneal exudate with a shift from spleen to lymph nodes and increased the phagocytic index. The results indicate that the immune system may influence the defence against cold at the level of brown adipose tissue thermogenesis.Abbreviations AU arbitrary unit(s) - bw body weight - HEMA 2-hydromethyl-metacrylate copolymer - BAT brown adipose tissue - UCP uncoupling protein - ATPase mitochondrial F_oF₁-ATPsynthase - IL-1 interleukin 1 - TNF tumour necrosis factor - NK cells natural killer cells - T _a ambient temperature     

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.     

Evidence from immunoblotting studies on uncoupling protein that brown adipose tissue is not present in the domestic pig

Adipose tissues and other tissues of the pig have been examined for the presence of the mitochondrial "uncoupling protein," characteristic of brown adipose tissue, in order to assess whether brown fat is present in this species. Mitochondria were prepared from various tissues and the proteins separated on the basis of molecular weight by sodium dodecyl sulphate--polyacrylamide gel electrophoresis. Immunoblotting procedures were then used to probe for uncoupling protein, employing a rabbit anti-(rat uncoupling protein) serum. Pigs were examined at 4 days, 4 weeks, and 8 weeks of age. No evidence for the presence of uncoupling protein was found at any of these ages. The protein was, however, readily detected in brown adipose tissue from rats, mice, golden hamsters, guinea pigs, Richardson's ground squirrel, and lambs. An additional group of pigs was acclimated to the cold (10 degrees C) for a period of 10 days prior to the examination of tissues, but again uncoupling protein was not detected in any tissue. These results indicate that uncoupling protein is either absent from adipose tissues of the pig or is present at such a low concentration that it is unlikely to support thermogenesis. It is concluded that the pig does not contain adipose tissue that is functionally "brown;" adipose tissues in this species appear to be exclusively "white."     

Selective loss of uncoupling protein from mitochondria of surgically denervated brown adipose tissue of cold-acclimated mice

The effects of unilateral surgical denervation on brown adipose tissue (BAT) composition were evaluated to assess the importance of the sympathetic innervation in the maintenance of a high concentration of the uncoupling protein thermogenin in cold-acclimated (CA) mice and to assess whether suppression of neural activity could account for BAT atrophy observed during fasting or when CA mice are returned to a thermoneutral environment (33 degrees C). Denervation-induced BAT atrophy was characterized by protein and thermogenin losses in absence of changes in the tissue cellularity (DNA content). There was a marked reduction in the concentration of thermogenin in mitochondria isolated from denervated BAT, but the concentration of the adenine nucleotide translocator was unchanged. Fasting or exposure of CA mice to 33 degrees C induced a rapid and extensive loss of tissue protein from both innervated and denervated BAT. In CA mice exposed to 33 degrees C, there was also reduction in tissue cellularity and loss of thermogenin from BAT mitochondria. Since surgical denervation suppressed BAT hyperplasia and the increase in the mitochondrial concentration of thermogenin observed during cold exposure, these results indicate that an intact innervation is required for both synthesis and maintenance of a high mitochondrial content of thermogenin in CA mice. In addition, the lesser changes in tissue composition caused by denervation compared with those caused by fasting or exposure of CA mice to 33 degrees C question the importance of the suppression of neural activity as the exclusive cause of rapid BAT atrophy in mice.     

Effects of exposure temperature on brown adipose tissue uncoupling protein mRNA levels

The effect of temperature on the amount of uncoupling protein mRNA in rat brown adipose tissue was examined after 1 and 14 days of exposure to cold. The relative amounts after 1 day, compared with rats kept at a thermoneutral temperature of 28 degrees C, were 3.2 at 19 degrees C, 3.3 at 11 degrees C, and 2.1 at 3 degrees C. This suggests that in warm-acclimated rats, a maximal response to a cold stimulus in brown adipose tissue is reached by 19 degrees C. In contrast to these results, the relative amounts of uncoupling protein mRNA after 14 days of cold exposure, compared with rats left at 28 degrees C, were 1.2 at 19 degrees C, 1.9 at 11 degrees C, and 2.1 at 3 degrees C. Since it is known that the amount of uncoupling protein in cold-acclimated rats increases continuously with decrease in temperature, the amount of protein reflects the mRNA levels during later times but not the initial time of exposure to cold.     

Evidence that the acute unmasking of GDP-binding sites in brown adipose tissue mitochondria is not dependent on mitochondrial swelling

The role of mitochondrial swelling in the unmasking of GDP-binding sites on brown adipose tissue mitochondria has been examined in mice. Acute cold exposure (6 degrees C for 1 h) led to increases in GDP binding without changes in the concentration of uncoupling protein, indicating that an unmasking of binding sites had occurred. Measurements of mitochondrial matrix volume suggested that an acute unmasking of GDP-binding sites took place without swelling of the mitochondria. In addition, the induction of a rapid preswelling of the mitochondria by incubation in KCl in the presence of valinomycin did not affect the cold-induced unmasking of GDP-binding sites. It is concluded that the acute unmasking of GDP-binding sites on uncoupling protein in brown adipose tissue is not due simply to mitochondrial swelling.     

Thyroid-stimulating hormone receptor in brown adipose tissue is involved in the regulation of thermogenesis

C.RF- Tshr(hyt/hyt) mice have a mutated thyroid-stimulating hormone receptor (TSHR), and, without thyroid hormone supplementation, these mice develop severe hypothyroidism. When hypothyroid Tshr(hyt/hyt) mice were exposed to cold (4 degrees C), rectal temperature rapidly dropped to 23.9 +/- 0.40 degrees C at 90 min, whereas the wild-type mice temperatures were 37.0 +/- 0.15 degrees C. When we carried out functional rat TSHR gene transfer in the brown adipose tissues by plasmid injection combined with electroporation, there was no effect on the serum levels of thyroxine, although rectal temperature of the mice transfected with pcDNA3.1/Zeo-rat TSHR 90 min after cold exposure remained at 34.6 +/- 0.34 degrees C, which was significantly higher than that of Tshr(hyt/hyt) mice. Transfection of TSHR cDNA increased mRNA and protein levels of uncoupling protein-1 (UCP-1) in brown adipose tissues, and the weight ratio of brown adipose tissue to overall body weight also increased. Exogenous thyroid hormone supplementation to Tshr(hyt/hyt) mice restored rectal temperature 90 min after exposure to cold (36.8 +/- 0.10 degrees C). These results indicate that not only thyroid hormone but also thyroid-stimulating hormone (TSH)/TSHR are involved in the expression mechanism of UCP-1 in mouse brown adipose tissue. TSH stimulates thermogenesis and functions to protect a further decrease in body temperature in the hypothyroid state.     

Evidence that fasting can induce a selective loss of uncoupling protein from brown adipose tissue mitochondria of mice

The effects of fasting and refeeding on the concentration of uncoupling protein in brown adipose tissue mitochondria have been investigated in mice. Fasting mice for 48 h led to a large decrease in the total cytochrome oxidase activity of the interscapular brown fat pad. Mitochondrial GDP binding and the specific mitochondrial concentration of uncoupling protein also fell on fasting. After 24 h refeeding both GDP binding and the mitochondrial concentration of uncoupling protein were normalized, but there was no alteration in the total tissue cytochrome oxidase activity. Fasting appears to induce a selective loss of uncoupling protein from brown adipose tissue mitochondria, which is rapidly reversible on refeeding.     

Functional atrophy of brown adipose tissue during lactation in mice. Effects of lactation and weaning on mitochondrial GDP binding and uncoupling protein.

The thermogenic activity and capacity of brown adipose tissue were determined in mice during lactation and after weaning. There was a marked fall during lactation in the mitochondrial content of the tissue, and in GDP binding and the specific mitochondrial concentration of uncoupling protein. The lactation-induced functional atrophy of brown adipose tissue was fully reversible after weaning; mitochondrial content and the mitochondrial concentration of uncoupling protein were both restored, although GDP binding was not normalized.     

Effect of caging singly or in groups of different sizes on the thermogenic activity of interscapular brown adipose tissue in mice

The effects on the thermogenic activity of brown adipose tissue of caging mice singly or in groups of different sizes has been investigated. At 23 degrees C the total cytochrome oxidase activity and the level of mitochondrial GDP binding were higher in mice caged singly than in mice caged in groups of three or six. At 4 degrees C GDP binding and cytochrome oxidase activity were lower in mice caged in groups of two, three or six than in mice caged singly. The mitochondrial concentration of uncoupling protein was not clearly affected by the number of mice in each cage.     

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

The effect of acclimation at different temperatures on the activity of interscapular brown adipose tissue has been investigated in the hamster, a hibernator. Between 31° and 4°C the cytochrome oxidase activity of the tissue increased 4- to 5-fold, mitochondrial GDP binding per mg of mitochondrial protein doubled, and the amount of uncoupling protein rose from 1.7% to 5.4% of total mitochondrial protein. It is concluded that there are clear adaptive changes induced by temperature in brown adipose tissue of the hamster, but the changes are limited in comparison with those in the mouse.     

Cold-induced alterations of phospholipid fatty acyl composition in brown adipose tissue mitochondria are independent of uncoupling protein-1

The recruitment process induced by acclimation of mammals to cold includes a marked alteration in the acyl composition of the phospholipids of mitochondria from brown adipose tissue: increases in 18:0, 18:2(n-6), and 20:4(n-6) and decreases in 16:0, 16:1, 18:1, and 22:6(n-3). A basic question is whether these alterations are caused by changes in the concentration of uncoupling protein-1 (UCP1) or the thermogenesis it mediates-implying that they are secondary effects-or whether they are an integrated, independent part of the recruitment process. This question was addressed here using wild-type and UCP1-ablated C57BL/6 mice acclimated to 24 degrees C or 4 degrees C. In wild-type mice, the phospholipid fatty acyl composition of mitochondria from brown adipose tissue showed the changes in response to cold that were expected from observations in other species and strains. The changes were specific, as different changes occurred in skeletal muscle mitochondria. In UCP1-ablated mice, cold acclimation induced acyl alterations in brown adipose tissue that were qualitatively identical and quantitatively similar to those in wild-type mice. Therefore, neither the increased content of UCP1 nor mitochondrial uncoupling altered the effect of cold on acyl composition. Cold acclimation in wild-type mice had little effect on phospholipid acyl composition in muscle mitochondria, but cold-acclimation in UCP1-ablated mice caused significant alterations, probably due to sustained shivering. Thus, the alterations in brown adipose tissue phospholipid acyl composition are revealed to be an independent part of the recruitment process, and their functional significance for thermogenesis should be elucidated.     

Mitochondrial uncoupling protein from mouse brown fat. Molecular cloning, genetic mapping, and mRNA expression

We have identified cDNAs clones for several cold-inducible mRNAs from the brown adipose tissue of mice. pCIN-1, a plasmid with a 900-base pair insert, encoded the mitochondrial uncoupling protein (UCP) as determined by the ability of the cDNA insert to select, by hybridization, an mRNA that could be translated into a 32,000-Da protein immunoprecipitable with anti-UCP antibodies. Nine tissues were analyzed; however, UCP cDNA hybridized to an mRNA species of 1.6 and 2.0 kilobase pairs only in brown adipose tissue. A maximum induction of 10-fold occurred within 6 h of exposure to cold (5 degrees C). A BamHI restriction fragment polymorphism detected by Southern blot analysis of genomic DNA in recombinant inbred mouse strains allowed us to map the UCP gene to Chromosome 8. The analysis of the UCP gene expression in diabetic (db) and obese (ob) mice maintained at 27 degrees C for 3 days followed by cold exposure for 4 h at 5 degrees C indicated that UCP mRNA levels in mutant mice were unaffected at 27 degrees C and only slightly reduced at 5 degrees C. Accordingly, the inability of diabetic and obese mice to thermoregulate is not associated with a lack of UCP mRNA induction.     

Effect of unilateral surgical denervation of brown adipose tissue on uncoupling protein mRNA level and cytochrom-c-oxidase activity in the Djungarian hamster

The bilateral lobe of interscapular brown adipose tissue of the Djungarian hamster was unilaterally denervated in order to study the role of the sympathetic innervation for maintenance and cold-induced increase of non-shivering thermogenesis. Denervation decreased the noradrenaline content of brown adipose tissue to less than 9% of the intact contralateral pad. This low noradrenaline level was maintained for 1–14 days after denervation. First, to study the role of the sympathetic innervation of brown adipose tissue in the maintenance of the high thermogenic capacity characteristic of the cold acclimated state, brown adipose tissue was denervated in hamsters either kept at thermoneutrality or acclimated to 5°C ambient temperature for 4 weeks. Cold-acclimated hamsters had elevated levels of uncoupling protein messenger ribonucleic acid (8.1-fold) and cytochrom-c oxidase-activity (3-fold). Denervation of brown adipose tissue decreased uncoupling protein-messenger ribonucleic acid level and cytochrom-c-oxidase-activity as compared to the intact pad in thermoneutral and in cold-acclimated hamsters. However, in cold-acclimated hamsters uncoupling protein-messenger ribonucleic acid level and cytochrom-c-oxidase-activity in denervated brown adipose tissue both were maintained on an elevated 6-fold higher levels as compared to thermoneutral controls. Second, to study the role of the sympathetic innervation of brown adipose tissue in the cold-induced increase in thermogenic capacity, hamsters were denervated prior to cold acclimation and responses were measured after 3 and 14 days of cold exposure. Uncoupling protein-messenger ribonucleic acid level and cytochrom-c-oxidase-activity of intact brown adipose tissue increased after 14 days cold acclimation. Denervation did not completely prevent a cold-induced 1.5-fold increase of cytochrom-c-oxidase-activity and a 3.2-fold increase of the uncoupling protein-messenger ribonucleic acid level in denervated brown adipose tissue after 14 days of cold acclimation. In conclusion, high levels of uncoupling protein-messenger ribonucleic acid and cytochrom-c-oxidase activity in brown adipose tissue of cold-acclimated hamsters can partially be maintained without intact sympathetic innervation, suggesting a considerable contribution of trophic factors not requiring sympathetic innervation for maintenance. The cold-induced increase of cytochrom-c-oxidase activity and expression of uncoupling protein-messenger ribonucleic acid largely depends upon sympathetic innervation of brown adipose tissue.Abbreviations ANOVA analysis of variance - BAT brown adipose tissue - COX cytochrom-c-oxidase - HPLC high performance liquid chromatography - mRNA messenger ribonucleie acid - NA noradrenaline - T _a ambient temperature - UCP uncoupling protein     

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.     

Attenuated response to cold of brown adipose tissue of mice made obese with gold thioglucose

In a first study, mice made obese with gold thioglucose became hypothermic when exposed to 4 degrees C. In a second study, lean mice and mice made obese with gold thioglucose (dynamic phase) were acclimated to 14 degrees C for up to 2 weeks and their brown adipose tissue was studied. The cold-induced increase in thyroxine 5'-deiodinase activity was initially slightly smaller in obese mice, but by 24 h and 2 weeks in the cold the activity of thyroxine 5'-deiodinase was the same in lean and obese mice. Unexpectedly, the elevated activity of 5'-deiodinase returned to the low level seen in warm-acclimated mice in both lean and obese mice after 2 weeks of cold acclimation. In gold thioglucose obese mice, a progressive cold-induced increase in the binding of guanosine diphosphate to isolated mitochondria, an index of both acute thermogenic activation and a long-term increase in uncoupling protein concentration, paralleled that seen in normal lean mice and remained at a high level after 2 weeks in the cold, although still remaining slightly lower than normal. It is not clear how a high level of mitochondrial GDP binding is maintained in cold-acclimated mice at the same time as a low level of thyroxine 5'-deiodinase activity when both are believed to be controlled by the sympathetic nervous system. We conclude that the gold thioglucose obese mouse can activate its brown adipose tissue fairly normally when it is exposed to cold, but that some attenuation of this process may contribute to the impaired survival of this mouse at low temperatures.     

Measurement by radioimmunoassay of the mitochondrial uncoupling protein from brown adipose tissue of obese (ob/ob) mice and Zucker (fa/fa) rats at different ages

The concentration of the 'uncoupling protein' in brown adipose tissue mitochondria has been measured in lean and obese (ob/ob) mice and Zucker (fa/fa) rats at different ages using a specific radioimmunoassay. During the suckling period the concentration of the protein was similar in normal and mutant animals of both types, despite the decrease in mitochondrial GDP binding observed in the obese. The concentration of uncoupling protein was, however, decreased in adult ob/ob mice and adult Zucker rats compared with their respective lean siblings, in parallel with the decrease in GDP binding. It is concluded that there is a 'masked', or inactive, form of uncoupling protein in young ob/ob mice and fa/fa rats.