Cold-induced thermogenesis in hypothyroid rats

Hypothyroidism was induced in adult rats by oral administration of methimazole. Euthyroid and hypothyroid rats were maintained at 23 °C or exposed at 6 °C for 3 weeks. Both euthyroid and hypothyroid rats maintained at 23 °C had similar interscapular brown adipose tissue (BAT) composition and thermogenic activity. Cold-exposed hypothyroid rats showed the same interscapular BAT mass and gross tissue composition as cold-exposed euthyroid animals, but the interscapular BAT of cold-exposed hypothyroid rats did not show the characteristic increase in GDP binding, and the increase in mitochondrial mass was lower than in euthyroid rats. From these results we conclude that thyroid hormones do not influence BAT significantly when thermogenic requirements are moderate, but they participate in the trophic response of the tissue when thermogenic requirements are intense. This thyroid hormone participation in the BAT trophic response occurs at the mitochondrial level, both in quantitative (mitochondrial mass) and qualitative (GDP-binding) aspects.     

Brown adipose tissue of mice with gold thioglucose-induced obesity: effect of cold and diet

Gold thioglucose (GTG)-obese mice have a larger than normal amount of brown adipose tissue (BAT) with ultrastructurally normal mitochondria. The tissue grows normally when the mice adapt to cafeteria feeding or to cold (8 degrees C). Acute exposure to cold causes a fairly normal thermogenic activation of BAT mitochondria of GTG-obese mice, both in dynamic and static phases of their obesity. However, chow-fed GTG-obese mice have BAT mitochondria that are in a low state of thermogenic activation, and these mice fail to respond to eating a cafeteria diet for 3 wk by a normal thermogenic activation of their BAT mitochondria. More prolonged cafeteria feeding for 11-13 wk, into the static phase of obesity, is associated with thermogenic activation of BAT mitochondria of GTG-obese mice. The capacity of GTG-obese mice to respond to noradrenaline (norepinephrine) by an increase in metabolic rate is greater than that of lean mice and is further enhanced by cold acclimation. It is concluded that BAT of the GTG-obese mouse is inherently functional, as is control of its thermogenic function and growth during cold exposure and cold acclimation. Dietary influences on BAT thermogenic function are, however, defective in the GTG-obese mouse at least during the dynamic phase of its obesity. The resulting failure of diet-induced thermogenesis would be expected to contribute to the known high metabolic efficiency of the GTG-obese mouse and, together with the hyperphagia, to the obesity induced by GTG.     

Leanness of Lou/C rats does not require higher thermogenic capacity of brown adipose tissue

Lou/C rats, an inbred strain of Wistar origin, remain lean throughout life and therefore represent a remarkable model of obesity resistance. To date, the exact mechanisms responsible for the leanness of Lou/C rats remain unknown. The aim of the present study was to investigate whether the leanness of Lou/C rats relies on increased thermogenic capacities in brown adipose tissue (BAT).Results showed that although daily energy expenditure was higher in Lou/C than in Wistar rats, BAT thermogenic capacity was not enhanced in Lou/C rats kept at thermoneutrality as demonstrated by reduced thermogenic response to norepinephrine in vivo, similar oxidative activity of BAT isolated mitochondria in vitro, similar levels of UCP1 mRNA and lower abundance of UCP1 protein in interscapular BAT depots. Relative abundance of β₃-adrenergic receptor mRNA was lower in Lou/C BAT while that of GLUT4, FABP or CPT1 was not altered. Activity-related energy expenditure was however considerably increased at thermoneutrality as Lou/C rats demonstrated an impressively high spontaneous running activity in voluntary running wheels. Prolonged cold-exposure (4 °C) depressed the spontaneous running activity of Lou/C rats while BAT thermogenic capacity was increased as reflected by rises in BAT mass, oxidative activity and UCP1 expression.It is concluded that the leanness of Lou/C rats cannot be ascribed to higher thermogenic capacity of brown fat but rather to, at least in part, increased locomotor activity. BAT is not deficient in this rat strain as it can be stimulated by cold exposure when locomotor activity is reduced suggesting some substitution between these thermogenic processes.     

Unloading does not increase brown-adipose-tissue activity in rat pups

Our previous study has shown that chronic hindlimb suspension leads to an increase in both the thermogenic capacity and the activity in brown adipose tissue (BAT) of adult rats (Yamashita, H., Ohira, Y., Wakatsuki, T., Yamamoto, M., Kizaki, T., Oh-ishi, S., Sato, Y. and Ohno, H. (1995). J. Appl. Physiol. 78: 384-387). In order to examine if unloading also increases the BAT activity in rat pups, the hindlimbs in the suspended pups were unloaded by tail suspension beginning on postnatal day 4 and suspended until day 21. The thermogenic activity (which was assessed by guanosine 5'-diphosphate binding to BAT mitochondria) was markedly lower in 21-day-old suspended pups than in 21-day-old control pups, although there was no difference in uncoupling protein 1 (UCP1) content or UCP1 mRNA expression in the BAT mitochondrial fraction between both pups. Likewise, there was no disparity in either adrenal or thymus mass between the control and suspended pups throughout the experiment. These results suggest that, in contrast to adult rats, chronic hindlimb suspension leads to a decrease in the thermogenic activity in BAT of rat pups possibly for reason that pups are less susceptible to the stress of unloading.     

Nitric oxide and thermogenic function of brown adipose tissue in rats

To clarify the effects of cold acclimation and immobilization stress adaptation of rats on nitric oxide (NO) activity in interscapular brown adipose tissue (BAT), we incubated neatly diced (1-mm(3) blocks) BAT in a metabolic chamber for respiration, measured oxygen consumption using a Clark electrode, and estimated NO release in the buffer medium by measuring nitrite plus nitrate (NO(x)) using the Griess method (diazotization reaction). The production of NO(x) in the buffer medium confirmed that BAT releases NO, as there is no other source of NO(x) in the system. The NO activity was observed in the basal condition and increased with noradrenaline stimulation, showing a correlation with oxygen consumption in the warm (25 degrees C)-acclimated control rats. Cold acclimation (5 degrees C, 5 weeks) or immobilization stress adaptation (3 h daily, 25 degrees C, 5 weeks) caused enhanced NO activity in the basal condition in comparison with the control. We suggest that NO is involved in enhancement of the thermogenic functions of BAT in rats.     

Sex-associated differences in cold-induced UCP1 synthesis in rodent brown adipose tissue

 The effects of acute and chronic acclimation to cold on uncoupling protein 1 (UCP1) levels, as well as on GDP-binding to mitochondria, cytochrome c oxidase activity and mitochondrial protein concentration in brown adipose tissue (BAT) of intact male and female rats have been analyzed. Results reveal that females rats are more sensitive to cold because their threshold temperature for the thermogenic response is set at a higher value (around 22°C) than that of males (around 18°C), hence leading to differences in BAT UCP1 levels between the sexes at different environmental temperatures. In vitro experiments showed that steroid hormones, β-estradiol, estrone and progesterone, can reduce norepinephrine-induced UCP1 synthesis in brown adipocytes differentiated in primary culture. Thus the different sex-associated response of cold-induced thermogenesis in rats does not appear to be explained by a direct action of sex steroids upon the adipocyte, implying that other factors in the thermogenic regulatory system must be involved. Received: 23 March 1998 / Received after revision: 20 May 1998 / Accepted: 21 May 1998     

Effect of acute cold-exposure on norepinephrine turnover and thermogenesis in brown adipose tissue and metabolic rate in MSG-induced obese mice

Mice treated neonatally with monosodium-L-glutamate (MSG) are known to develop into obese adults without hyperphagia, which are characterized by the reduced levels in the resting metabolic rate (RMR) and the thermogenesis of brown adipose tissue (BAT) in the thermoneutral environment. The present study revealed that an acute cold-exposure (5 degrees C, 1 h) of these animals resulted in the increase in norepinephrine turnover and mitochondrial-5'-diphosphate (GDP) binding in the interscapular BAT as well as the guanosine RMR, suggesting a normal thermogenic responsiveness of BAT to cold.     

Excitatory amino acid receptor activation in the raphe pallidus area mediates prostaglandin-evoked thermogenesis

To investigate the role of excitatory amino acid neurotransmission within the rostral raphe pallidus area (RPa) in thermogenic and cardiovascular responses, changes in sympathetic nerve activity to brown adipose tissue (BAT), BAT temperature, expired CO(2), arterial pressure, and heart rate were recorded after microinjection of excitatory amino acid (EAA) receptor agonists into the RPa in urethan-chloralose-anesthetized, ventilated rats. To determine whether EAA neurotransmission within the RPa is necessary for the responses evoked by disinhibition of the RPa or by prostaglandin E(2) acting within the medial preoptic area, BAT sympathetic nerve activity, BAT temperature, expired CO(2), arterial pressure, and heart rate were measured during these treatments both before and after blockade of EAA receptors within the RPa. Microinjection of EAA receptor agonists into the RPa resulted in significant increases in all measured variables; these increases were attenuated by prior microinjection of the respective EAA receptor antagonists into the RPa. Microinjection of prostaglandin E(2) into the medial preoptic area or microinjection of bicuculline into the RPa resulted in respective significant increases in BAT sympathetic nerve activity (+approximately 190% and +approximately 235% of resting levels), in BAT temperature (approximately 1.8 degrees C and approximately 2 degrees C), in expired CO(2) (approximately 1.1% and approximately 1.1%), and in heart rate (approximately 97 beats per minute (bpm) and approximately 100 bpm). Blockade of ionotropic EAA receptors within the RPa by microinjection of kynurenate completely reversed the prostaglandin E(2) or bicuculline-evoked increases in all of the measured variables. Blockade of either N-methyl-D-aspartate (NMDA) receptors or non-NMDA receptors alone resulted in marked attenuations of the prostaglandin E(2)-evoked effects on all of the measured variables. These data demonstrate that activation of an EAA input to the RPa is necessary for the BAT thermogenic and the cardiovascular effects resulting from the actions of prostaglandin E(2) within the medial preoptic area or from the disinhibition of local neurons in the RPa.     

Lack of diet-induced thermogenesis in brown adipose tissue of obese medial hypothalamic-lesioned rats

Radiofrequency heat lesions were made in the medial hypothalamus of 12-week old male and female Holtzman rats. Two to three days later rats were offered a palatable cafeteria diet in addition to chow or were fed chow alone for the next 3-4 weeks. Male lesioned rats were only slightly hyperphagic on the chow diet and gained little extra weight. When fed the cafeteria diet, energy intake of male lesioned rats almost doubled in comparison with chow-fed lesioned rats and a very rapid extra weight gain occurred. Despite the marked hyperphagia, thermogenesis in brown adipose tissue was suppressed in the cafeteria-fed lesioned rats, as indicated by low mitochondrial guanosine diphosphate (GDP) binding. In female rats, lesions induced much greater hyperphagia and body weight gain than in male rats, particularly when they ate the cafeteria diet. Again, thermogenesis in brown adipose tissue was suppressed in the cafeteria-fed female lesioned rats. The proportion of energy derived from carbohydrate was not altered by the cafeteria diet in either male or female rats, whether lesioned or not, but there was an increase in the proportion of energy derived from fat at the expense of protein. No sex differences in food selection were observed. The accumulation of body fat was always greater in female lesioned rats than in male lesioned rats for similar food intakes. It is concluded that medial hypothalamic lesions prevent the normal occurrence of diet-induced thermogenesis in brown adipose tissue despite extreme overeating by the rats of a palatable cafeteria diet.     

Reduced norepinephrine turnover in brown adipose tissue of ob/ob mice

Obese (ob/ob) mice have a lower thermogenic capacity than lean mice. The possible role of brown adipose tissue (BAT) in this defect was investigated. Lean and obese mice were exposed to 33 (thermoneutral), 25, or 14 degrees C for up to 3 wk. BAT cytochrome oxidase activity and numbers of Na+-K+-ATPase enzyme units, enzymes involved in thermogenesis, were similar at 33 or 25 degrees C. Chronic exposure to 14 degrees C increased these enzymes 34 and 62%, respectively, in lean mice and nearly 150% in obese mice. Sympathetic nervous system activity, which stimulates thermogenesis in BAT, was evaluated by measuring norepinephrine (NE) turnover. At 25 degrees C, NE turnover rate in BAT of obese mice was only 40% as rapid as in BAT of lean mice. Chronic exposure to 33 degrees C depressed NE turnover in BAT of lean mice, but not in obese mice, whereas exposure to 14 degrees C accelerated NE turnover in both lean and obese mice. Lower sympathetic nervous system activity in BAT of obese mice at 25 degrees C is likely a major factor in their reduced nonshivering thermogenesis and resultant high efficiency of energy storage.     

Concomitant food intake and adipose tissue responses under chronic insulin infusion in rats

Body weight (BW), food intake (FI), and activity of white adipose tissue (WAT) and brown adipose tissue (BAT) were studied in adult male rats under chronic insulin infusion. Insulin was infused for 4, 7 or 10 days via implanted minipumps. Insulin-treated rats gained more BW than control rats until 7th day of infusion. At 10 days, the difference in BW decreased. The average cumulative FI was significantly higher after 4, 7 and 10 days of insulin infusion. Feed efficiency (FE) was increased in insulin-treated rats after 4 and 7 days. An increase in WAT weight was observed in insulin-treated rats together with an increased activity of lipogenic enzymes. BAT weight was augmented after 4 days of insulin infusion. This was due mainly to lipid accumulation. Specific mitochondrial guanosine diphosphate (GDP) binding was significantly decreased by 58% in insulin-treated rats after 4 days of infusion. This reduced thermogenic activity, along with the increased FI and FE were responsible for the rapid BW gain observed during the first 7 days of insulin infusion.     

Effect of Postnatal Age and a β3-Adrenergic Agonist (Zeneca D7114) Administration on Uncoupling Protein-1 Abundance in the Lamb

We examined the effect of time after birth and beta(3)-adrenergic agonist (Zeneca D7114) administration on uncoupling protein-1 (UCP1) abundance and thermoregulation in the lamb. Forty twin lambs, all born normally at term, were maintained at a cold ambient temperature of between 3 and 8 degrees C. At 0.5, 1.75, 5.25, 11.25 and 23.25 h after birth eight sets of twins were fed 20 ml of formula milk +/- 10 mg kg(-1) of beta(3)-adrenergic agonist, and 45 min after feeding brown adipose tissue (BAT) was sampled. Colonic temperature was measured and BAT analysed for UCP1 abundance, GDP-binding to mitochondrial protein (i.e. thermogenic activity) and catecholamine content. Colonic temperature declined between 1.25 and 6 h from 40.2 degrees C to 39.2 degrees C and then increased to 39.8 degrees C at 12 h, but increased after feeding at all ages. UCP1 abundance increased from 1.25 h after birth, to peak at 2 h after birth in controls, compared with 6 h after birth in beta(3)-adrenergic agonist-treated lambs. The level of GDP-binding to mitochondrial protein did not change significantly with age but was increased by beta(3)-adrenergic agonist treatment. The noradrenaline (norepinephrine) content of BAT increased between 1.25 and 12 h after birth, irrespective of beta(3)-adrenergic agonist administration. The total weight of perirenal BAT plus its lipid, protein and mitochondrial protein content declined over the first 6 h of life. UCP1 development continues over the first 24 h of neonatal life, and can be manipulated by beta(3)-adrenergic agonist administration. This may represent one method of improving thermoregulation in newborn lambs. Experimental Physiology (2001) 86.1, 65-70.     

Brown adipose tissue response to cafeteria diet-feeding involves induction of the UCP2 gene and is impaired in female rats as compared to males

Noradrenaline-dependent brown adipose tissue (BAT) thermogenesis is activated by the cold and excess energy intake, largely depends on the activity of the uncoupling protein 1 (UCP1), and is mediated mainly through the beta3-adrenoceptor (beta3-AR). We investigated the expression of ucp2, a gene that encodes a putative UCP1-like uncoupling protein, along with that of ucp1 and beta3-ar, in the interscapular BAT (IBAT) of male and female rats chronically fed a cafeteria diet. After 3 months on this diet, male rats attained a 34% excess body mass and showed IBAT hypertrophy and increased IBAT thermogenic potential, in terms of both UCP1 and UCP2 mRNA expression (both by 1.6-fold), UCP1 protein expression (by 1.75-fold) and GDP binding to IBAT mitochondria (by 2.2-fold); female rats attained a larger excess body weight (50%) and their IBAT, although hypertrophied, showed no signs of increased thermogenic potential per gram of tissue. Interestingly, the IBAT of female rats was already activated compared to males. Treatment of mouse brown adipocytes in primary culture with noradrenaline also triggered a dose-dependent increase of the levels of UCP1 mRNA and UCP2 mRNA. Retroregulatory down-regulation of the beta3-AR mRNA levels was found in the two models used. The results support a physiological role for UCP2, along with UCP1, in rodent BAT thermogenesis.     

A comparison of taste reactivity changes induced by ventromedial hypothalamic lesions and stria terminalis transections

A hyperreactivity to the sensory qualities of a food, i.e., finickiness, is a defining feature of the ventromedial hypothalamic (VMH) lesion syndrome. The precise anatomical locus mediating this disturbance has not been determined. This study examines the hypothesis that interruption of amygdalo-hypothalamic connections (either ascending or descending) via the stria terminalis (ST) is involved in VMH lesion-induced finickiness. Taste reactivity was assessed in animals with VMH lesions, ST knife cuts, combined VMH/ST damage, and controls. In sham feeding tests of taste reactivity, ST and VMH rats were equally hyperreactive compared to controls. Rats with combined VMH and ST damage, however, were more reactive than both these groups. None of the brain lesions resulted in an overreactivity to quinine adulteration of the diet. In contrast to sham feeding, ST rats were not hyperphagic when feeding normally, although VMH rats were. In fact, ST damage attenuated VMH-induced hyperphagia and weight gain. We conclude that the taste reactivity changes induced by VMH lesions and ST transections are independent and additive indicating that VMH finickiness does not involve disruption of amygdalo-hypothalamic connections. Nonetheless, disruption of the ST produces a dramatic change in taste reactivity and the properties and origins of this disturbance are discussed.     

Comparison of DNA synthesis in white and brown adipose tissue in rats with ventromedial hypothalamic lesions

Ventromedial hypothalamic (VMH) lesions cause excessive fat accumulation in white adipose tissue (WAT), and brown adipose tissue (BAT); however, little information is available on whether or not cell proliferation occurs in WAT and BAT after VMH lesioning. In this study, we determined the DNA content and thymidine incorporation in unilateral parametrial WAT and interscapular BAT 0, 1, 3, and 7 days after VMH lesioning, and examined the mechanism of increased DNA content in WAT. In rats with VMH lesions, the weight of WAT and BAT had increased significantly at 7 days, and the DNA content and thymidine incorporation of WAT had increased significantly at 3 days and continued to increase for up to 7 days, while those of BAT did not increase for as long as 7 days after VMH lesioning. Restricted food intake according to the pair-feeding method partially inhibited the increased DNA content in WAT. The increased DNA content in WAT was mostly restored but not completely by the administration of anti-insulin antibody, and by administration of propranolol, a -adrenergic blocker. The results demonstrated that VMH lesions induced DNA synthesis in WAT early after VMH lesioning, but did not induce DNA synthesis in BAT, and suggested that either hyperinsulinemia or a -adrenergic receptor mechanism or both may be responsible for the increased DNA content in WAT.     

Hypothalamic hyperphagic rats overeat bitter sucrose octa acetate diets but not quinine diets.

Female rats were made hyperphagic with knife cuts or lesions in the ventromedial hypothalamus (VMH) and their aversion to food made bitter by adulteration with quinine or sucrose octa acetate (SOA) was examined. In short-term choice tests VMH obese rats, as well as controls, strongly preferred a 0.1% quinine diet to a 1.0% SOA diet. Yet, in 24 hr intake tests VMH obese rats overate, relative to controls, the 1% SOA diet, but underate the 0.1% quinine diet. VMH rats in both dynamic and static stages also overate SOA diets in concentrations up to 16%. However, VMH obese rats underate a 1% SOA diet when previously fed a 0.1% quinine diet. The results indicate that the VMH rat's finickiness to quinine diets may not be due to bitter taste alone, but may result from toxic postingestive effects of quinine and the development of a conditioned taste aversion.     

Repeated immobilization stress increases uncoupling protein 1 expression and activity in Wistar rats

Repeat immobilization-stressed rats are leaner and have improved cold tolerance due to enhancement of brown adipose tissue (BAT) thermogenesis. This process likely involves stress-induced sympathetic nervous system activation and adrenocortical hormone release, which dynamically enhances and suppresses uncoupling protein 1 (UCP1) function, respectively. To investigate whether repeated immobilization influences UCP1 thermogenic properties, we assessed UCP1 mRNA, protein expression, and activity (GDP binding) in BAT from immobilization-naive or repeatedly immobilized rats (3 h daily for 4 weeks) and sham operated or adrenalectomized (ADX) rats. UCP1 properties were assessed before (basal) and after exposure to 3 h of acute immobilization. Basal levels of GDP binding and UCP1 expression was significantly increased (140 and 140%) in the repeated immobilized group. Acute immobilization increased GDP binding in both naive (180%) and repeated immobilized groups (220%) without changing UCP1 expression. In ADX rats, basal GDP binding and UCP1 gene expression significantly increased (140 and 110%), and acute immobilization induced further increase. These data demonstrate that repeated immobilization resulted in enhanced UCP1 function, suggesting that enhanced BAT thermogenesis contributes to lower body weight gain through excess energy loss and an improved ability to maintain body temperature during cold exposure.     

Effects of hypothyroidism and hyperthyroidism on thermogenic responses to selective and nonselective beta-adrenergic agonists in rats

Oxygen consumption (VO2) and mitochondrial guanosine diphosphate (GDP) binding of interscapular brown adipose tissue (BAT) were measured in hypothyroid, hyperthyroid and euthyroid rats after stimulations with selective and nonselective beta-adrenoceptor agonists: BRL 35135A (BRL) and Isoprenaline (ISO). Resting VO2, VO2 increment and mitochondrial GDP binding after beta-adrenergic stimulations were lower in hypothyroid rats than in the euthyroid group. The reduced responses were more marked for ISO than for BRL. Restion VO2 and VO2 increment after beta-adrenergic stimulations were higher in hyperthyroid rats than in the eurthyroid group; the increment was more marked for BRL than for ISO. In hyperthyroidism, mitochondrial GDP binding after BRL and after ISO was in the same magnitude; it was higher in the hyperthyroid than in the euthyroid group after BRL but not after ISO. The different thermogenic responses after ISO and BRL stimulations suggest that BRL is acting on a beta-adrenoceptor differing from the beta-1 and beta-2 adrenoceptors responsible for the effects of ISO. Activation of thermogenesis via the beta-3 adrenoceptor seems to be less dependent on the permissive levels of thyroid hormones than activation via beta-1 and/or beta-2 adrenoceptors. The beta-3 adrenoceptor may be more sensitive to increased levels of thyroid hormones.     

Effect of immobilization stress on in vitro and in vivo thermogenesis of brown adipose tissue.

Repetitive intermittent stress such as immobilization has been shown to induce an improved cold tolerance through an enhanced capacity of nonshivering thermogenesis (NST), causing positive cross adaptation between nonthermal stress and cold. In the present study, effect of 3-h-daily immobilization stress for 4-5 weeks was investigated on in vitro and in vivo thermogenesis of interscapular brown adipose tissue (BAT). In vitro thermogenesis was measured in the minced tissue blocks incubated in Krebs-Ringer phosphate buffer with glucose and albumin at 37 degrees C, using a Clark-type oxygen electrode. The stressed rats showed less body weight gain during the experiment. The BAT weight, its protein and DNA contents were significantly greater in the stressed rats. Basal, noradrenaline- and glucagon-stimulated oxygen consumptions were significantly greater in the stressed rats. In vivo thermogenesis was assessed by the changes of temperatures in colon (Tcol), BAT (TBAT), and tail skin (Tsk) induced by noradrenaline or glucagon infusion in the anesthetized rats. Noradrenaline and glucagon increased the TBAT and the extent of increase was greater in the stressed rats. These results indicate that cross adaptation between nonthermal stress and cold may be mediated through an enhanced thermogenic activity of BAT.     

Brown adipose tissue glyceroneogenesis is activated in rats exposed to cold

We have previously found that glyceroneogenesis is very active in brown adipose tissue (BAT) and increases in fasted, diabetic and high-protein-diet-fed rats, situations of reduced thermogenic activity. To understand better the role of glyceroneogenesis in BAT glycerol-3-phosphate (G3P) generation, we investigated its activity during cold exposure (10 days at 4°C), a condition in which, in contrast to the above situations, BAT thermogenesis is markedly activated. Rates of total (from all sources) BAT fatty acid (FA) synthesis and rates of incorporation of glucose carbon into BAT glyceride-FA and -glycerol in vivo were markedly increased by cold exposure. Cold exposure induced a marked increase in BAT glyceroneogenic activity, evidenced by (1) increased rates of non-glucose carbon incorporation into glyceride-glycerol in vivo and of [1-¹⁴C]-pyruvate incorporation into glyceride-glycerol in vitro, and (2) a threefold increase in phosphoenolpyruvate carboxykinase activity. Most of the glyceride-glycerol synthesized by BAT via glyceroneogenesis or from glucose was used to esterify preformed FA. This use was markedly increased by cold exposure, in parallel with a pronounced activation of BAT lipoprotein lipase activity. In conclusion, during cold exposure BAT glyceroneogenesis is markedly activated, contributing to increase the generation of G3P, which is mostly used to esterify preformed FA.