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

A novel regulatory pathway of brown fat thermogenesis. Retinoic acid is a transcriptional activator of the mitochondrial uncoupling protein gene

The mitochondrial uncoupling protein (UCP) is responsible for the thermogenic function of brown fat, and it is a molecular marker of the brown adipocyte cell type. Retinoic acid (RA) increased UCP mRNA levels severalfold in brown adipocytes differentiated in culture. This induction was independent of adrenergic pathways or protein synthesis. RA stimulated ucp gene expression regardless of the stage of brown adipocyte differentiation. In transient transfection experiments RA induced the expression of chloramphenicol acetyltransferase vectors driven by 4.5 kilobases of the 5'-noncoding region of the rat ucp gene, and co-transfection of expression vectors for RA receptors enhanced the action of RA. Retinoic acid receptor alpha was more effective than retinoid X receptor in promoting RA action, whereas a mixture of the two was the most effective. The RA-responsive region in the ucp gene was located at -2469/-2318 and contains three motifs (between -2357 and -2330) of the consensus half-sites characteristic of retinoic acid response elements. This 27-base pair sequence specifically binds purified retinoic acid receptor alpha as well as related proteins from brown fat nuclei. In conclusion, a novel potential regulatory pathway of brown fat development and thermogenic function has been recognized by identifying RA as a transcriptional activator of the ucp gene.

Rapid chemiluminescent detection of mRNAs on northern blots with digoxigenin end-labelled oligonucleotides

A simplified, nonradioactive procedure for the detection of specific mRNAs on Northern blots has been developed, utilizing digoxigenin-labelled oligonucleotides and chemiluminescence. Antisense oligonucleotide (30-35 mer) probes were designed and synthesised based on published cDNA and gene sequences. These probes were end-labelled (5') with digoxigenin. Total RNA was fractionated by agarose gel electrophoresis and capillary blotted onto positively charged nylon membranes. After hybridization, the mRNA/digoxigenin-labelled oligonucleotide complex was detected by a chemiluminescence-based method using disodium 3-(4-methoxyspiro-[1,2-dioxetane-3-2'(5'chloro)- tricyclo[3.3.1.13.7]decane]-4-yl)phenyl phosphate (CSPD) as substrate. The advantages of this simplified technique for detecting mRNAs in physiological and nutritional studies are described.

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

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

Development of obesity in transgenic mice after genetic ablation of brown adipose tissue

Brown adipose tissue, because of its capacity for uncoupled mitochondrial respiration, has been implicated as an important site of facultative energy expenditure. This has led to speculation that this tissue normally functions to prevent obesity. Attempts to ablate or denervate brown adipose tissue surgically have been uninformative because it exists in diffuse depots and has substantial capacity for regeneration and hypertrophy. Here we have used a transgenic toxigene approach to create two lines of transgenic mice with primary deficiency of brown adipose tissue. At 16 days, both lines have decreased brown fat and obesity. In one line, brown fat subsequently regenerates and obesity resolves. In the other line, the deficiency persists and obesity, with its morbid complications, advances. Obesity develops in the absence of hyperphagia, indicating that brown fat deficient mice have increased metabolic efficiency. As obesity progresses, transgenic animals develop hyperphagia. This study supports a critical role for brown adipose tissue in the nutritional homeostasis of mice.

Novel inheritance of the murine severe combined anemia and thrombocytopenia (Scat) phenotype

The phenotype of the autosomal recessive mutation scat includes severe intermittent bleeding, depletion of platelets, and circulating anti-platelet antibodies. In this study, we have mapped the scat mutation to mouse chromosome 8 and shown that the immune component is a secondary consequence of the gene defect. Surprisingly, the phenotype of the scat/scat pups depends on the genotype of the mother. Maternal homozygosity prevents disease transmission; crosses between scat homozygotes produce few affected young, while the expected frequency is generated from normal (+/+) mice bearing scat/scat ovaries. The results suggest a novel method of maternal-fetal interaction that relies neither on transfer of maternal mitochondria nor on parental imprinting. We conclude that contribution from the maternal wild-type allele is required for expression of the scat phenotype in homozygotes.

Widespread increases in regional hypothalamic neuropeptide Y levels in acute cold-exposed rats

Neuropeptide Y injected into the hypothalamus or third ventricle stimulates feeding and inhibits the sympathetic activation of brown adipose tissue. To clarify the involvement of hypothalamic neuropeptide Y in cold-induced thermogenesis, groups of rats exposed to 4 degrees for 2.5 or 18 h were compared with warm-adapted rats (22 degrees C). Neuropeptide Y was measured in eight selected hypothalamic regions, including those known to be involved in the regulation of energy expenditure. Activation of brown adipose tissue was confirmed by significant six- to nine-fold increases in brown adipose tissue uncoupling protein messenger RNA. Compared with warm-adapted controls, neuropeptide Y levels were significantly raised by 80-170% in several hypothalamic regions of rats exposed to cold for 2.5 h, namely the medial preoptic area, paraventricular nucleus, ventromedial nucleus, dorsomedial nucleus and lateral hypothalamic area. Neuropeptide Y levels in 18-h cold-exposed rats were similarly elevated in these regions and were also significantly increased in the anterior hypothalamic area (75%). By contrast, neuropeptide Y levels in the arcuate nucleus, the main hypothalamic site of synthesis, were not increased by cold exposure, being significantly reduced by 21% after 2.5 h exposure and comparable with controls after 18 h. As neuropeptide Y injection inhibits brown adipose tissue activation, we suggest that the rapid and dramatic increases in neuropeptide Y levels in specific hypothalamic regions occur because cold exposure might inhibit the release of neuropeptide Y and so cause accumulation of neuropeptide Y in these sites.(ABSTRACT TRUNCATED AT 250 WORDS)

Differential adrenergic regulation of C/EBP alpha and C/EBP beta in brown adipose tissue

We investigated the regulation of the expression of two members of the C/EBP family of transcriptional activators, C/EBP alpha and C/EBP beta, in brown adipose tissue in mice. Less than one hour of cold exposure led to dramatic changes in the expression of both genes. C/EBP alpha steady-state mRNA and protein levels were drastically and rapidly reduced whereas C/EBP beta mRNA and protein levels were induced severalfold. Also norepinephrine injection affected the expression of the transcription factors. Preconfluent cells in brown fat primary cultures responded to norepinephrine with a decrease in C/EBP alpha and an increase in C/EBP beta mRNA; in confluent cells the expression of both factors was increased. Thus, C/EBP alpha and C/EBP beta gene expression is under adrenergic control both in vivo and in vitro but the type of response is directed by the degree of differentiation of the cells.

Low translational efficiency of the F1-ATPase beta-subunit mRNA largely accounts for the decreased ATPase content in brown adipose tissue mitochondria

The half-life of the F1-ATPase beta-subunit (F1-beta) mRNA in ATPase-poor brown adipose tissue (BAT) (t1/2 = 9.5 h) was found to be 3-7-fold shorter than in liver (t1/2 = 27 h) and heart (t1/2 = 63 h) of mice. When translated in reticulocyte lysate, a 2-3-fold lower efficiency appeared with F1-beta mRNA from BAT than from other tissues. The in vitro synthesized F1-beta protein precursors of BAT, liver and heart origin were imported and processed by mouse liver mitochondria with equal efficiency. The results indicate that the pool of abundant F1-beta mRNA in BAT is not fully translatable, most likely due to its low metabolic stability.

Regulation of expression of the lipoprotein lipase gene in brown adipose tissue

The regulation of lipoprotein lipase gene expression in brown adipose tissue was studied. Rats were preacclimated to 21 degrees C. Exposure to cold (4 degrees C) resulted in a rapid increase in the level of lipoprotein lipase mRNA in the tissue. The level peaked (expressed per microgram total RNA) after approximately 8 h and then slowly declined. The increased lipoprotein lipase mRNA level was not due to an increased stability of the mRNA, but, in a transition event from a high to a low expression of the lipoprotein lipase gene, a transcription-dependent process was recruited that accelerated the breakdown of lipoprotein lipase mRNA. Norepinephrine injections increased lipoprotein lipase mRNA levels in the tissue; this effect was mediated via a beta-adrenergic receptor. The effect of cold could be mimicked by norepinephrine injections, and these two effects were not additive, indicating that the cold effect was mediated by norepinephrine. The lipoprotein lipase mRNA level was also increased by insulin injections (into fasted animals); thus an increase in lipoprotein lipase gene expression in brown adipose tissue may be induced via two different stimuli, which, intracellularly, would be mediated via different signaling systems. In all investigated conditions, the changes in lipoprotein lipase mRNA levels observed here were parallelled by alterations in lipoprotein lipase activity reported earlier from this laboratory. It was therefore concluded that, under the conditions studied, lipoprotein lipase activity in brown adipose tissue was primarily regulated at the transcriptional level.

Comment to Shinohara et al. (1991) FEBS Letters 293, 173-174. The uncoupling protein is not expressed in rat liver

Using Northern blot analysis, immunoblotting with purified antibodies and Polymerase Chain Reaction analysis, we were unable to detect the Uncoupling Protein-UCP or its mRNA in liver of control, cold-exposed or newborn rats. The unique expression of this protein in brown adipocytes was confirmed. These data refute the surprising recent report on UCP expression in rat liver (Shinohara (1991) FEBS Lett. 293, 173-174). Moreover we report that the hybridization signal obtained by these authors is probably non-specific and due to the 3' non-coding domain of the UCP cDNA probe.

Low content of mitochondrial ATPase in brown adipose tissue is the result of post-transcriptional regulation

The mRNA levels of ATPase beta, ATPase 6, cytochrome oxidase (COX) VIb and COX I subunits were found to be 2.4-13.8-fold higher in brown adipose tissue (BAT) than in heart, skeletal muscle, brain and liver of mice. The comparison with tissue contents of ATPase and COX revealed that the selective, 5-11-fold reduction of ATPase in BAT is not caused by decreased transcription of ATPase genes. Likewise, the ATPase beta and COX VIb mRNA levels in cultured brown adipocytes were also not influenced by norepinephrine, which activated the expression of the UCP gene by two orders of magnitude. The results indicate that the biosynthesis of mitochondrial ATPase in BAT is post-transcriptionally regulated.

Characterization and functional expression of a cDNA encoding egasyn (esterase-22): the endoplasmic reticulum-targeting protein of beta-glucuronidase

Egasyn (esterase-22), a member of the nonspecific carboxylesterase multigene family (E.C. 3.1.1.1), is the endoplasmic reticulum (ER)-targeting protein of beta-glucuronidase. We utilized the polymerase chain reaction (PCR) in the eventual isolation of murine egasyn cDNAs. PCR primers were based upon: (1) partial amino acid sequences derived from egasyn peptides and (2) a conserved active site region shared by carboxylesterases. The amino acid sequence deduced from the PCR product matched that obtained from egasyn protein. This product was utilized as a probe to screen a cDNA library. Two cDNAs whose composite sequence encoded an open reading frame of 562 amino acids were isolated. A message size of 1700-2000 bp was revealed by RNA blot hybridization analysis. S1 nuclease protection analyses detected mRNA in liver, kidney, lung, and submandibular gland, but not in spleen, brain, and testes. Genetic mapping confirmed the location of an egasyn cDNA fragment in cluster 1 of the esterase region on chromosome 8. Transfection of COS cells with the 2022-bp cDNA resulted in the expression of esterase activity, which comigrated on native gels with liver esterase-22. The features of the deduced amino acid sequence of the egasyn cDNA are compared with previously characterized carboxylesterases and with other lumenal ER proteins.

Convertible adipose tissue in mice

Ability to express uncoupling protein (UCP) and establish UCP-dependent thermogenesis was analyzed in anatomical areas of mice that are generally considered to be white adipose tissue: mesenterial, perimetral, epididymal, inguinal, and superficial layer of interscapular white adipose tissue. The mice were acclimatized for 1 week to 4 degrees C; the following week they were exposed to cold stress (1 h at -20 degrees C, 2-3 times daily). In such conditions in inguinal adipose tissue, slot-blot analysis detected significant amount of UCP mRNA and lipoprotein lipase mRNA. Immuno-electron-microscopic localization of UCP showed that developed mitochondria of cold-stressed inguinal adipocytes contained UCP in the same amount as uncoupled (UC)-mitochondria of brown adipocytes. Morphological and morphometrical analysis showed that such inguinal adipose tissue appeared as brown adipose tissue. Since in control mice, inguinal adipose tissue was UCP-negative and tissue appeared as white adipose tissue, the duration of this white-to-brown adipose tissue conversion was analyzed. Mice, cold stressed for 1 week, were rewarmed at 28 degrees C and their inguinal adipose tissue was analyzed in comparison with interscapular brown adipose tissue and epididymal white adipose tissue for another 37 days. During that time inguinal adipocytes ceased expressing UCP mRNA; UC-mitochondria in inguinal adipocytes were destroyed and replaced with common, C-mitochondria; and UCP was undetectable immunohistochemically. Adipocytes accumulated lipids, and the tissue morphologically once again resembled white adipose tissue. Described changes showed that besides typical brown and white adipose tissue in mice, there existed a third type of adipose tissue described as convertible adipose tissue.

A linkage map of mouse chromosome 8: further definition of homologous linkage relationships between mouse chromosome 8 and human chromosomes 8, 16, and 19

Using an interspecific cross, a mouse chromosome 8 linkage map spanning 72 cM has been defined by the segregation of restriction fragment length variants. Linkage and genetic distance were established for 10 loci by analysis of 114 meiotic events and indicated the following gene order: (centromere)-Insr-3.5 cM-Plat-26.3 cM-Crryps/Mel/Jund-3.5 cM-Junb/Ucp-10.5 cM-Mt-1-27.2 cM-Acta2-0.9 cM-Aprt. These data provide further definition of mouse chromosome 8 linkage relationships and the relationship between segments of this chromosome and human chromosomes 8, 16, and 19.

A multilocus linkage map of mouse chromosome 8

We present a genetic linkage map of mouse chromosome 8 that spans 53 cM and includes eight cloned loci. This map was derived from analysis of 100 progeny of an interspecific backcross between Mus spretus and Mus musculus domesticus. Genes that were mapped in this analysis include L7, Plat, Lpl, Ucp, Es, Mt-1, Um, and Tat. This analysis positions a new extremely proximal marker on chromosome 8, which is discussed as a potential candidate gene for the nervous locus. These linkage data will be useful for the mapping of additional loci on chromosome 8.

Characterization of a murine cDNA encoding a member of the carboxylesterase multigene family

We have characterized a mRNA sequence containing the entire coding region of a mouse carboxylesterase (EC 3.1.1.1). pEs-N, an 1840-bp composite of five overlapping cDNA clones, contains an open reading frame of 554 amino acids that display a high degree of similarity with rat and rabbit carboxylesterases. Genetic mapping studies place this carboxylesterase in cluster 1 of the esterase region on chromosome 8. Results of blot hybridization analysis of genomic DNA probed with a pEs-N cDNA under both low and high stringency conditions suggest membership in a carboxylesterase multigene family, as would be expected for a nonspecific carboxylesterase. A message size of 1850-1900 nucleotides was revealed by RNA blot hybridization analysis. S1 nuclease protection analyses with a probe representing a segment of pEs-N detected message in liver, kidney, and lung, but not in spleen, brain, testes, and submandibular gland, with higher levels in female than in male kidney. Additional S1 nuclease-protected mRNA species were found, suggesting the expression of distinct members of a multigene family. In vitro translation of a full-size transcript of pEs-N resulted in a product of 51.5 kDa. Upon the addition of microsomes, this product was processed into a protein of 60.4 kDa, which is within the size range of monomeric units of mouse carboxylesterases.

Effect of iodine deficiency and cold exposure on thyroxine 5'-deiodinase activity in various rat tissues

We measured thyroxine 5'-deiodinase I (T(4)5'D-I) activity in thyroid, liver, and kidney and thyroxine 5'-deiodinase II (T(4)5'D-II) activity in brown adipose tissue (BAT) in rats on a low-iodine diet (LID) to test the possibility that increased deiodinase activity in these tissues might contribute to the maintenance of ther serum 3,5,3'-triiodothyronine (T3) level. Control rats received LID plus KI. Experiments were also performed with LID and LID plus KI rats exposed to cold. T(4)5'D-I activity was greatly increased in the thyroids of LID rats but not in liver or kidney. We consider it likely that increased thyroxine (T4)-to-T3 conversion in the greatly enlarged thyroids of LID rats contributed to the maintenance of serum T3. T(4)5'D-II activity in BAT was markedly increased in LID rats and was further greatly increased on cold exposure. However, we were unable to demonstrate an increase in uncoupling protein mRNA levels in BAT in response to cold in LID rats. We attribute this to the very low serum T4 level, which limits substrate availability. This factor also makes it unlikely that BAT contributes to maintenance of serum T3 in LID rats.

Increased GDP binding and thermogenic activity in brown adipose tissue mitochondria during arousal of the hibernating garden dormouse (Eliomys quercinus L.)

1. The thermogenic activity of brown adipose tissue in hibernating garden dormice during hypothermic torpor and at different states of arousal were studied. High levels of GDP binding were observed on isolated brown fat mitochondria, indicating that the thermogenic proton conductance pathway is very active in brown fat during arousal. 2. In order to investigate this phenomenon, the uncoupling protein was assessed by immunological assay and the mRNA for UCP was analysed. 3. Animals during arousal exhibited neither increase in UCPmRNA nor an increase in UCP. 4. Our results suggest that during the rewarming of garden dormice there is an acute unmasking of GDP binding sites on the protein.

Zinc finger protein gene complexes on mouse chromosomes 8 and 11

Two murine homologs of the Drosophila Krüppel gene, a member of the gap class of developmental control genes that encode a protein with zinc fingers, were mapped to mouse chromosomes 8 and 11 by using somatic cell hybrids and an interspecific backcross. Surprisingly, both genes were closely linked to two previously mapped, Krüppel-related zinc finger protein genes, suggesting that they are part of gene complexes.

Immunoelectron microscopical studies on synthesis and localization of uncoupling protein in brown adipocytes: evidence for cotranslational transport of uncoupling protein into mitochondria

Through the use of the immunoelectron microscopical technique, uncoupling protein (UCP) was analyzed in the brown adipocytes of room temperature- and cold-acclimated rats, in rat brown adipocytes developed in vitro, and in the brown adipocytes of mice, hamsters, and hedgehogs. Using rat anti-UCP-antibody, it is shown that UCP is located in the cristae of brown adipocytes mitochondria (UC-mitochondria) of all analyzed species, whereas mitochondria of nonadipose cells, i.e., C-mitochondria of endothelium, fibrocytes, smooth muscle cells, Schwann cells, axons of neural cells, and white blood cells, do not contain UCP. Cold stress in rats exposed to temperatures of +4 and -20 degrees C caused the amount of UCP per 1 micron 2 of mitochondria to more than double compared with room temperature-acclimated rats. This increase was especially dramatic on the outer mitochondrial membrane: fourfold more UCP molecules compared to the control rats. The ground cytoplasm of adipocytes showed very intensive labeling with RNase-gold complex, indicating that cytoplasm was an active site for protein synthesis, while the absence of UCP-labeling in ground cytoplasm was interpreted to mean that ground cytoplasm did not serve as a site for UCP synthesis. On the other hand, the protrusions of the outer mitochondrial membrane covered with ribosomes, clusters of UCP molecules, and clusters of RNase-gold particles supported the idea that UCP was one of the mitochondrial proteins synthesized on the ribosomes which were in contact with the outer mitochondrial membrane. After being synthesized there, UCP, which could be either extruded into intermembranous space or directed by lateral movement to intermembranous contact sites, was incorporated into inner mitochondrial membrane. Thus, UCP is imported using the so-called "cotranslational transport system."

Human uncoupling protein gene: structure, comparison with rat gene, and assignment to the long arm of chromosome 4

The uncoupling protein (UCP) gene encodes a unique mammalian mitochondrial proton carrier that induces heat production in brown adipocytes. Human UCP gene was isolated and its organization analyzed. A comparison was made with rat UCP gene. Human UCP gene spans 13 Kb and contains a transcribed region that covers 9 Kb of the human genome. All of the exons were also sequenced except the extreme end of the 3' untranslated region. Two Kb DNA upstream the TATA box were also sequenced. This region contains several fragments that are highly homologous to the gene of rat UCP. Neither CCAAT sequence nor Sp 1 binding motif were detected. Human UCP gene is split into six exons. The complete amino acid sequence of the protein was determined. Human UCP has 305 amino acids and a molecular weight of 32,786. It has no N-terminal targeting sequence. It is 79% homologous to rat UCP both at nucleotidic and amino acid levels. The primary structure of UCP is significantly homologous to the primary structure of the human T1 ADP/ATP carrier, particularly in the C-terminal extremity, which is supposed to contain a nucleotide-binding site in both proteins. Human UCP gene is single type, as it is in rodents. Two genomic fragments were used to detect a 1.9 Kb mRNA in human perirenal brown adipose tissue. Using in situ hybridization, UCP gene was assigned in humans to chromosome 4 in q31. Interestingly, the T1 gene encoding the heart-skeletal muscle ADP/ATP carrier has recently been shown to be on the same chromosome (Li et al. Biol Chem 264:13998, 1989).

A micromethod for the isolation of total RNA from adipose tissue

We have developed a simple and rapid procedure for the isolation of total RNA from small amounts of adipose tissue. Using this method, it is possible to obtain quantitative recovery of RNA from less than 300 mg of adipose tissue, with an average yield of 70 micrograms of RNA per gram of adipose tissue. Northern blot analysis of rat epididymal adipose tissue RNA samples was performed using a beta-actin probe and demonstrated that intact total RNA had been isolated. The procedure has been adapted for use in 1.5-ml microcentrifuge Eppendorf tubes, providing a convenient and inexpensive method for the reproducible recovery of intact RNA from sparse samples of adipose tissue.

SV40 stimulates expression of the transacting factor Sp1 at the mRNA level

Expression of the trans-acting transcription factor Sp1 increased almost 10-fold after infection of cells by simian virus 40. This alteration, attributable to an early viral protein, occurred at the mRNA level beginning at 12 hr postinfection, shortly after the appearance of viral T antigen, and reached a plateau at 20 hr postinfection. The enhanced level of Sp1 message was accompanied by a marked increase in Sp1 protein in the cell nuclei. Furthermore, we have demonstrated that stimulation of Sp1 levels elevates expression from viral and cellular promoters. Enhancing the amount of this trans-acting factor may play a role in aiding the viral life cycle and in neoplastic transformation of infected cells.

Metabolic heat production during repeated testing at 24 degrees C and 6 degrees C in adult and aged male C57BL/6J mice: the effect of physical restraint before cold stress

Adult (9-14 month) and aged (29-31 month) male C57BL/6J mice were subjected to 3 baseline tests (BASE), 3 cold tests (COLD), or 3 baseline immediately followed by cold tests (BASE/COLD). All tests consisted of partial restraint, and baseline tests were at 24 degrees C for 1 h while cold tests were at 6 degrees C for 3 h. All tests were started at 0900 and were repeated every 2 weeks. Mice were weighed before each test and colonic temperature, O2 consumption, and CO2 production were measured every 4 min for the duration of the test. Mean metabolic heat production during baseline and/or cold and slopes of colonic temperature over time during cold were calculated for each animal. Metabolic heat production at 24 degrees C in both BASE and BASE/COLD was the same in aged mice as adults, however, at degrees C BASE/COLD adult mice increased metabolic heat production compared to 24 degrees C, while aged mice produced a similar amount of heat at both 6 degrees C and 24 degrees C. When comparing metabolic heat production at 6 degrees C between COLD and BASE/COLD mice, adult COLD mice demonstrate an habituation to repeated cold exposure accompanied by increasing heat production, while BASE/COLD adults produce higher heat in all 3 cold exposures. The authors suggest that this is due to a priming of heat production in adults by restraint before the cold. In aged mice, neither COLD nor BASE/COLD groups demonstrate habituation, but BASE/COLD mice produce more heat than COLD during cold exposure, again indicating baseline priming of heat production. The data imply that aged mice have an impairment in specific cold-induced thermogenesis, while their abilities to produce heat in response to restraint-induced sympathetic activation remains intact.

An interspecific backcross linkage map of mouse chromosome 8

We have established a 67-cM molecular genetic linkage map of mouse chromosome 8 by interspecific backcross analysis. Genes that were mapped in this study include Act-6, Aprt, Aprt-ps1, Emv-2, Es-N, Hp, Insr, Mt-1, Plat, Psx-8, Ucp, and Zfp-4. New regions of homology were established between mouse chromosome 8 and human chromosomes 8 and 19. A conserved linkage group was identified between mouse chromosome 8 and human chromosome 16. The map will be useful for establishing linkage of other markers to mouse chromosome 8.

Effects of cholera toxin on gene expression in brown preadipocytes differentiating in culture

To investigate the cellular control of the recruitment process in brown adipose tissue, the ability of cholera toxin to influence the differentiation of brown preadipocytes developing in culture was investigated. Stromalvascular cells obtained from the brown adipose tissue of 3-wk-old rats were grown in culture for 6-7 days in the presence or absence of cholera toxin. It was found that cholera toxin treatment decreased the expression of the actin gene (indicating an increased degree of differentiation), while at the same time promoting the expression of the genes coding for the mitochondriogenesis marker cytochrome-c oxidase and for the adipocyte conversion marker lipoprotein lipase (all followed at the mRNA level). Chronic cholera toxin treatment also increased the total amount of protein per cell in culture, and a specific cholera toxin-induced 35-kDa protein was identified. It was concluded that (in contrast to the case suggested for white preadipocytes) cholera toxin treatment of brown preadipocytes may not only affect the activity of catabolic enzymes but may also directly promote the differentiation process, indicating that this process is under beta-adrenergic control in the adapting animal.

Tissue-specific expression, developmental regulation, and genetic mapping of the gene encoding CCAAT/enhancer binding protein

This paper presents the results of experiments that determine the chromosomal location of the mouse gene encoding CCAAT/enhancer binding protein (C/EBP) and measure its expression as a function of tissue type and temporal period of development in mice and rats. Three alleles of the C/EBP gene were identified according to restriction fragment length polymorphisms. The strain distribution pattern of the three alleles was determined in recombinant inbred mouse strains and compared to that of other mouse genes. These results mapped the gene to a position within 2.5 centimorgans (cM) of the structural gene encoding glucose phosphate isomerase on chromosome 7 of the mouse. The expression pattern of the C/EBP gene was studied by a combination of nucleic acid hybridization and antibody staining assays. High levels of C/EBP mRNA were observed in tissues known to metabolize lipid and cholesterol-related compounds at uncommonly high rates. These included liver, fat, intestine, lung, adrenal gland, and placenta. More detailed analysis of two of these tissues, liver and fat, showed that C/EBP expression was limited to fully differentiated cells. Moreover, analysis of the temporal pattern of expression of C/EBP mRNA in two tissues, liver and intestine, revealed a coordinated induction just prior to birth. These observations raise the possibility that the synthesis of C/EBP may be responsive to humoral factors and that modulation in C/EBP expression might mediate coordinated changes in gene expression that facilitate adaptive challenges met during development or during the fluctuating physiological states of adult life.

Rabbit brown adipose tissue uncoupling protein MRNA: use of only one of two polyadenylation signals in its processing

A cDNA containing the complete coding sequence of rabbit brown adipose tissue uncoupling protein was isolated and sequenced. The coding region is 80.6% identical to rat UCP cDNA and the protein is about 86% identical to the rat and hamster proteins. Despite the presence of 2 AATAAA polyadenylation consensus sequences in rabbit UCP cDNA, only one rabbit UCP mRNA was detected indicating that only the 3'-downstream signal is used in contrast to rat and mouse where both are used.

Brown adipocytes differentiated in vitro can express the gene for the uncoupling protein thermogenin: effects of hypothyroidism and norepinephrine

Expression of the gene for the brown-fat specific uncoupling protein thermogenin was investigated in cell cultures by hybridization of isolated RNA with a cDNA clone corresponding to mouse thermogenin. The RNA was isolated 3-4 days after confluence from cells differentiated in culture from precursors isolated from the interscapular brown adipose tissue of 5-week-old mice. Very low thermogenin mRNA levels were found in cells derived from untreated mice, and there was only little effect of added norepinephrine on thermogenin gene expression in these cells. However, in cells derived from hypothyroid (methimazole-treated) mice there was a higher expression of thermogenin, and norepinephrine had a marked augmenting effect on the thermogenin mRNA level in these cells. These effects of thermogenin mRNA levels were specific, in that they contrasted with the effects of hypothyroidism and norepinephrine on the level of other mRNA species in these cells (coding for beta-actin, lipoprotein lipase, cytochrome-c oxidase, and glycerol-3-phosphate dehydrogenase). It was concluded that brown-fat cells in culture can reach a differentiated state, sufficiently advanced that the unique properties of these cells can be expressed, and that thermogenin gene expression (i.e., the level of thermogenin mRNA) is under direct control of norepinephrine.

Rapid postnatal changes in F1-ATPase proteins and in the uncoupling protein in brown adipose tissue mitochondria of the newborn rat

Changes in F1-ATPase and UCP protein contents and in the activity of respiratory complexes I, II and IV of brown adipose tissue mitochondria are reported during the first 0-6 hours of life in the rat. Mitochondrial UCP/F1-ATPase protein ratio is used to define the onset of thermogenic differentiation of brown adipose tissue mitochondria. It is concluded that mitochondrial differentiation occurs soon after birth and that the process is accelerated by hypothermic conditions.

The gene for rat uncoupling protein: complete sequence, structure of primary transcript and evolutionary relationship between exons

The complete nucleotide sequence of rat Uncoupling Protein gene has been determined. 4.5 Kb of the 5'-flanking region have also been sequenced. The site of transcription start as well as 3'-end extremities were identified. Transcription unit spans 8.4 Kb and contains 6 exons and 5 introns. Uncoupling protein as well as related mitochondrial carriers such as ADP/ATP carrier and phosphate carrier has a triplicated structure and each repeat of Uncoupling Protein corresponds to 2 exons. Two gene duplications could explain the triplicated structure of UCP and the more recent event of duplication concerned exons III and V. Evidence for homology between Uncoupling Protein and Neurospora crassa ADP/ATP carrier at the gene level was also noticed.

Epididymal white adipose tissue after cold stress in rats. II. Mitochondrial changes

We have previously shown that after severe cold stress of rats the epididymal white adipose tissue (WAT) acquires many of the morphological characteristics (innervation, vascularization, appearance of adipocytes) of brown adipose tissue (BAT). In the present study, the mitochondrial characteristics have been analyzed. Mitochondria from the epididymal fat pad of cold-stressed rats became enlarged and had a volume 1.7 times greater than that in the control group (0.5 microns 3 in the experimental versus 0.3 microns 3 in the control group). The mitochondria occupied about 60% of the cytoplasm (14% in the control group), thus approaching the highest value reported for any cell. The straight or slightly wavy cristae completely traversed the width of the mitochondria and occupied an area of 26 microns 2/1 microns 3 of mitochondrion in the experimental adipose tissue (7 microns 2 in the control group) and 15 microns 2/1 microns 3 of cytoplasm (1.4 microns 2 in the control). The mitochondrial matrix became electron lucid and could contain lamellar whorls, as could the surface of the mitochondria. These mitochondria of epididymal WAT resembled, both morphologically and morphometrically, mitochondria in the BAT of cold-exposed rodents. In the epididymal mitochondria, immunoelectron microscopy did not reveal the presence of the BAT-specific uncoupling protein thermogenin, nor could the slot-blot technique detect thermogenin mRNA. We conclude that even under these extreme conditions of cold stress, WAT cannot adopt the thermogenin-dependent thermogenesis of BAT. The dramatic mitochondriogenesis can be interpreted only as being indicative of an extremely high metabolism in the tissue, thus placing unprecedented pressure on the energy turnover capacity of the cell.

Effect of a thermogenic agent, BRL 26830A, on insulin receptors in obese mice

The effect of a new type of antidiabetic agent, BRL 26830A, has been tested in obese mice. Since this drug increases thermogenesis, insulin receptor binding and kinase activity were studied in brown adipose tissue and skeletal muscle of mice made obese by gold thioglucose. At 1 mg.kg-1.day-1, a 3-wk treatment normalized the glycemia and increased the uncoupling protein content of brown adipose tissue. The insulin receptor number and its associated kinase activity increased only in brown adipose tissue. At 2 mg.kg-1.day-1, additional effects, i.e., a 20% reduction in body weight and a normalization of insulin receptor number both in brown adipose tissue and in skeletal muscle, were observed. All those results were obtained even though hyperinsulinemia was not corrected. At the higher drug dosage, insulin receptor kinase activity evolved in direct proportion to the receptor number in brown adipose tissue. By contrast, in skeletal muscle, the receptor kinase activity toward exogenous substrates increased more than the receptor number, suggesting that the alteration of insulin receptor kinase activity previously reported in skeletal muscle of obese mice was partly reversed by BRL 26830A. None of these parameters was modified by the drug in lean mice. These results show that, even without affecting obesity, BRL 26830A improves insulin resistance in obese mice, probably through its effect on insulin receptors. This action prevails in brown adipose tissue, supporting the idea that this tissue plays an important role in glucose homeostasis. Thermogenic drugs could thus be powerful agents for the treatment of noninsulin-dependent diabetics.

Physiological activation of brown adipose tissue destabilizes thermogenin mRNA

The amount of mRNA coding for the brown fat specific uncoupling protein thermogenin was followed in the brown adipose tissue of adult mice. As expected, cold exposure or norepinephrine injection caused an increase in the amount of thermogenin mRNA. However, contrary to expectation, the half-life of thermogenin mRNA was dramatically reduced, from about 18 h to about 3 h, when the mice were cold exposed. This destabilization of thermogenin mRNA was not related to the activity of protein synthesis. It was concluded that in brown adipose tissue an unusual mechanism operates which leads to a destabilization of thermogenin mRNA under the same physiological conditions which increase thermogenin gene expression.

Hormone-sensitive lipase in brown adipose tissue: identification and effect of cold exposure

Hormone-sensitive lipase (HSL) in brown adipose tissue from mice was identified through immunoprecipitation with a polyclonal antibody (anti-HSL) towards rat white fat HSL and Western blotting. An 82 kDa polypeptide, slightly smaller than the rat white fat HSL 84 kDa subunit, was detected and its identity as HSL verified by inhibition properties. The HSL concentration per g tissue was several-fold higher in the mouse brown adipose tissue than in the rat white adipose tissue, but the specific activities per mg protein were similar. Cold-exposure (4 degrees C) of the mice for 24 h approximately doubled the HSL concentration but this increase parallelled the overall protein increase and did not reflect a specific effect on the HSL.

Euthyroid status is essential for the perinatal increase in thermogenin mRNA in brown adipose tissue of rat pups

The amount of mRNA coding for the brown-fat specific, uncoupling protein thermogenin was followed perinatally in fetuses and newborns from normal and hypothyroid rat dams. Although the growth of the fetuses and newborns was normal in the hypothyroid group, they had a lower amount of thermogenin mRNA already in-utero, and the dramatic postnatal increase in thermogenin mRNA was nearly completely abolished. It is concluded that the euthyroid state is essential for the regulation of the expression of the thermogenin gene.

Optimal response of key enzymes and uncoupling protein to cold in BAT depends on local T3 generation

We have examined the activity of three lipogenic enzymes [malic enzyme (ME), glucose-6-phosphate dehydrogenase (G-6-PD), and acetyl coenzyme A (CoA) carboxylase], the activity of the mitochondrial FAD-dependent alpha-glycerolphosphate dehydrogenase (alpha-GPD), and the mitochondrial concentration of uncoupling protein (UCP) in brown adipose tissue (BAT) of euthyroid and hypothyroid rats, both at room temperature and in response to acute cold stress. These enzymes and UCP are important for the thermogenic response of BAT in adaptation to cold. The basal level of the lipogenic enzymes was normal or slightly elevated in hypothyroid rats maintained at 23 degrees C, but the levels of alpha-GPD and UCP were markedly reduced. Forty-eight hours at 4 degrees C resulted in an increase in the activity of G-6-PD, acetyl-CoA carboxylase, and alpha-GPD and in the concentration of UCP both in euthyroid and hypothyroid animals, but the levels reached were invariably less in hypothyroid animals, indicating that thyroid hormone is necessary for a full metabolic response of BAT under maximal demands. Of all variables measured, the most affected was UCP (only one-fifth of the response of euthyroid rats to cold) followed by alpha-GPD (approximately 50% the euthyroid response). The administration of replacement doses of triiodothyronine (T3) to hypothyroid rats for 5-7 days did not normalize any of the BAT responses, whereas the replacement of thyroxine (T4) for only 2 days sufficed to normalize them all. This effect of T4 was abolished by preventing its conversion to T3 with iopanoic acid.(ABSTRACT TRUNCATED AT 250 WORDS)

Loss of brown adipose tissue uncoupling protein mRNA on deacclimation of cold-exposed rats

The effect of environmental temperature on the level of uncoupling protein mRNA from rat brown adipose tissue was examined using a cDNA probe. A 4.4 fold increase in the mRNA level was observed after 1 day exposure of rats to 6 degrees C, which was followed by a slow loss with longer times of exposure. When rats were returned to a thermoneutral environment, there was a dramatic loss of uncoupling protein mRNA within 1 day. Comparison wih poly(A)+ RNA levels suggest that the response to temperature is specific for uncoupling protein mRNA.