Effect of sympathetic de-activation on thermogenic function and membrane lipid composition in mitochondria of brown adipose tissue.

Male Long-Evans rats (9 weeks of age) were exposed to cold (5 degrees C) for 10 days. Then, sympathetic de-activation of brown adipose tissue (BAT) was performed either by BAT surgical denervation (Sy) or by warm re-exposure at 28 degrees C (WE) for 4 days. The incidence of the two treatments on thermogenic activity of BAT mitochondrial membranes and their lipid composition was investigated. Sy and WE induced a large decrease in GDP binding on the uncoupling protein (UCP) (43% and 82%, respectively). Several parameters of mitochondrial energization were investigated. Sy and WE substantially decreased UCP-dependent proton conductance (CmH+) over the whole range of protonmotive force. CmH+ showed greater variation than GDP binding. The low basal UCP-independent CmH+ was the same in all groups. Comparison of GDP binding and CmH+ with UCP content which is not modified revealed a masking of both the nucleotide binding site and the proton channel. Sy and WE induced the same increase of phosphatidylcholine to phosphatidylethanolamine ratio (16%) but had opposite effects on fatty acid unsaturation. The results were discussed with reference to functional significance of these variations in BAT mitochondrial thermogenic activity and lipid composition.     

Time-course variations of effective proton conductance and GDP binding in brown adipose tissue mitochondria of rats during prolonged cold exposure.

1. Time-course variations of the thermogenic pathway in rat brown adipose tissue (BAT) mitochondria were examined. 2. Several parameters of mitochondrial energization, protonmotive force and its components pH gradient and membrane potential were investigated. The specific binding of GDP was compared with the effective proton conductance (CmH+) of the membrane. 3. Ten-days cold exposure led to maximal GDP binding and GDP-dependent CmH+. 4. The subsequent relative decrease in GDP binding observed during prolonged cold exposure (40 days) was functional and led to a lower GDP-dependent CmH+. CmH+ showed greater variation than GDP binding. 5. The CmH+ decrease was not due to a masking of active sites of the uncoupling protein. 6. Basal GDP-independent CmH+ was not modified. 7. Results are discussed with reference to the significance of biochemical measures and to the physiological regulation of BAT thermogenesis.     

The effects of essential fatty acid deficiency on brown adipose tissue activity in rats maintained at thermal neutrality

1. The consequences of essential fatty acid (EFA) deficiency on the resting metabolism, food efficiency and brown adipose tissue (BAT) thermogenic activity were examined in rats maintained at thermal neutrality (28 C). 2. Weanling male Long-Evans rats were fed a hypolipidic semi-purified diet (control diet: 2% sunflower oil; EFA-deficient diet: 2% hydrogenated coconut oil) for 9 weeks. 3. They were kept at 28 C for the last 5 weeks. Compared to controls, in EFA-deficient rats the growth shortfall reached 21% at killing. 4. As food intake was the same in EFA-deficient and control rats, food efficiency was thus decreased by 40%. 5. Resting metabolism expressed per surface unit was 15% increased. 6. Non-renal water loss was increased by 88%. 7. BAT weight was 28% decreased but total and mitochondrial proteins were not modified. 8. Heat production capacity, tested by GDP binding per BAT was 69% increased in BAT of deficient rats. 9. The stimulation of BAT was established by two other tests: GDP inhibition of mitochondrial O2 consumption and swelling of mitochondria. 10. It is suggested that the observed enhancement of resting metabolism in EFA-deficient rats is, in part, due to an activation of heat production in BAT.     

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.     

The effect of beta-galactosides on the protonmotive force and growth of Escherichia coli

The effect of three beta-galactosides on the components membrane potential (delta psi) and pH gradient (delta pH) of protonmotive force and growth of Escherichia coli has been examined. A good correlation between the reduction of the protonmotive force and growth inhibition was observed. Thus some galactosides had little effect on either the protonmotive force or growth while lactose diminished the protonmotive force and caused growth inhibition. This effect of lactose was dependent on the ionic composition of the growth media. In Medium A (77 mM-Na+, 85 mM-K+) lactose diminished delta psi but had no effect on delta pH. Growth inhibition was transient at an external pH 6.0 but complete at pH 7.5. In medium KA (approximately 1 mM-Na+, 162 mM-K+) delta pH was diminished and delta psi was not affected and consequently growth inhibition was complete at pH 6.0. In medium NA (163 mM-Na+, 20 mM-K+) lactose had little effect on delta psi, delta pH or growth. These data support Skulachev's hypothesis of buffering of the protonmotive force by K+ and Na+ gradients.     

Unique relationships between the rates of oxidation and phosphorylation and the protonmotive force in rat-liver mitochondria

The rate of ATP synthesis (JP) in isolated rat-liver mitochondria was strongly dependent on the magnitude of the protonmotive force (delta mu H+) across the mitochondrial inner membrane. Addition of different concentrations of various uncouplers or malonate to mitochondrial incubations in State 3 led to a depression of delta mu H+ and a concomitant decrease in JP. A unique relationship between JP and delta mu H+ was obtained, which was independent of the way in which delta mu H+ was varied. This unique relationship was observed when K+ (in the presence of valinomycin) was used as a probe for delta psi. Different relationships between JP and delta mu H+ were observed when K+ was used as a probe for delta psi and when K+ was measured after separation of the mitochondria by centrifugation without silicone oil. This led to a serious underestimation of delta psi, specifically when uncouplers were present, and non-unique flow-force relationships were thus obtained. Anomalous relationships between JP and delta mu H+ were also found when TPMP+ was used as a probe for delta psi. However, in uncoupler incubations the presence of TBP- strongly affected the TPMP+ accumulation ratio without any effect on the K+ accumulation or on JP and in the presence of TBP- unique relationships between JP and delta mu H+ were again obtained. This indicates that the accumulation of TPMP+ inside the mitochondria is not a straightforward function of delta psi but also depends on conditions like the presence of TBP- or uncouplers. We conclude that there is a unique relationship between the rate of phosphorylation and the protonmotive force in mitochondria and that under some conditions the behaviour of TPMP+ is anomalous.     

Non-shivering thermogenesis and brown adipose tissue activity in essential fatty acid deficient rats.

The effects of essential fatty acid (EFA) deficiency on energetic metabolism and interscapular brown adipose tissue (BAT) activity were examined in the cold acclimated rat. Weanling male Long-Evans rats were fed on a low fat semipurified diet (control diet, 2% sunflower oil; EFA deficient diet, 2% hydrogenated coconut oil) for 9 weeks. They were exposed at 5 degrees C for the last 5 weeks. In EFA deficient rats, compared to controls, growth retardation reached 22% at sacrifice. Caloric intake being the same in the two groups, it follows that food efficiency was decreased by 40%. Resting metabolism in relation to body surface area was 25% increased. Calorigenic effect of norepinephrine (NE) in vivo (test of non-shivering thermogenesis) underwent a marked decrease of 34%. BAT weight was 21% decreased but total and mitochondrial protein content showed no variation. A 26% increase in purine nucleotide binding per BAT (taken as an index of thermogenic activity) was observed, suggesting that the enhancement in resting metabolism observed was mainly due to increased BAT thermogenesis. However, BAT mitochondria respiratory studies which are more direct functional tests showed a marked impairment of maximal O2 consumption of about 30% with palmitoyl-carnitine or acetyl-carnitine (both in presence of malate) or with alpha-glycerophosphate as substrate. It is likely that this impaired maximal BAT oxidative capacity may explain the impaired NE calorigenic effect in vivo. A possible increase in mitochondrial basal permeability is also discussed.     

Flow-force relationships in mitochondrial oxidative phosphorylation

The rates of oxidation and phosphorylation in isolated rat-liver mitochondria have a steep dependence on the protonmotive force (delta mu H+) across the membrane. These experimentally observed relationships proved to be independent of the way in which delta mu H+ was varied. These results were obtained when the membrane potential (delta psi) was calculated from the distribution of K+ (in the presence of valinomycin). When triphenylmethylphosphonium (TPMP+) was used as a probe for delta psi, slightly different flow-force relationships were obtained. We conclude that unique relationships exist between delta mu H+ and the rates of oxidation and phosphorylation, and that under some conditions the behaviour of the probe TPMP+ is anomalous.     

Glutamate uptake into synaptic vesicles of bovine cerebral cortex and electrochemical potential difference of proton across the membrane.

Measurements have been made of the ATP-dependent membrane potential (delta psi) and pH gradient (delta pH) across the membranes of the synaptic vesicles purified from bovine cerebral cortex, using the voltage-sensitive dye bis[3-propyl-5-oxoisoxazol-4-yl]pentamethine oxanol and the delta pH-sensitive fluorescent dye 9-aminoacridine respectively. A pre-existing small delta pH (inside acidic) was detected in the synaptic vesicles, but no additional significant contribution by MgATP to delta pH was observed. In contrast, delta psi (inside positive) increased substantially upon addition of MgATP. This ATP-dependent delta psi was reduced by thiocyanate anion (SCN-), a delta psi dissipator, or carbonyl cyanide p-(trifluoromethoxy)phenylhydrazone (FCCP), a protonmotive-force dissipator. Correspondingly, a substantially larger glutamate uptake occurred in the presence of MgATP, which was inhibited by SCN- and FCCP. A nonhydrolysable analogue of ATP, adenosine 5'-[beta gamma-methylene]triphosphate, did not substitute for ATP in either delta psi generation or glutamate uptake. The results support the hypothesis that a H+-pumping ATPase generates a protonmotive force in the synaptic vesicles at the expense of ATP hydrolysis, and the protonmotive force thus formed provides a driving force for the vesicular glutamate uptake. The delta psi generation by ATP hydrolysis was not affected by orthovanadate, ouabain or oligomycin, but was inhibited by N-ethylmaleimide, quercetin, trimethyltin, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole and 4-acetamido-4'-isothiocyanostilbene-2,2'-disulphonic acid. These results indicate that the H+-pumping ATPase in the synaptic vesicle is similar to that in the chromaffin granule, platelet granule and lysosome.     

The relationship between extramitochondrial Ca2+ concentration, respiratory rate, and membrane potential in mitochondria from brown adipose tissue of the rat

The ability of isolated mitochondria from rat brown-adipose tissue to regulate extramitochondrial Ca2+ (measured by arsenazo) was studied in relation to their ability to produce heat (measured polarographically). The energetic state of the mitochondria was expressed as a membrane potential, delta psi (estimated with safranine), and was varied semi-physiologically by the use of different GDP concentrations. In these mitochondria GDP binds to the 32-kDa polypeptide, thermogenin, which regulates coupling. Ca2+ uptake (at 5 microM extramitochondrial Ca2+) was maximal at delta psi greater than 150 mV. Basal Ca2+ release increased from 1 to 2 nmol x min-1 x mg-1 below 150 mV. Na+ -stimulated rate of Ca2+ release was stable within the investigated delta psi span (100-160 mV). Initial Ca2+ levels were maintained below 0.2 microM for 100 mV less than delta psi less than 160 mV. Ca2+ levels maintained after Ca2+ challenge (20 nmol Ca2+ x mg-1) were below 0.4 microM for delta psi greater than 135 mM. Respiration was unstimulated for delta psi greater than 150 mV and was maximal at delta psi less than or equal to 135 mV. In the presence of well-oxidised substrates, the respiration at maximally activated thermogenin was markedly below fully uncoupled respiration and was probably limited by thermogenin activity--i.e. by a limited H+ reentry (OH- exit) and therefore by a membrane potential maintained at about 135 mV. It is concluded that at membrane potentials of 135 mV and above the mitochondria exhibit full Ca2+ control and are able to regulate thermogenic output up to maximum without interfering with this Ca2+ control. Membrane potential probably does not decrease below 135 mV in vivo. Therefore, Ca2+ homeostasis and thermogenesis are non-interfering and can be hormonally independently regulated, e.g. by alpha-adrenergic and beta-adrenergic stimuli, respectively.     

The effect of sorbic acid and esters of p-hydroxybenzoic acid on the protonmotive force in Escherichia coli membrane vesicles

The effect of three food preservatives, sorbic acid and methyl and butyl esters of p-hydroxybenzoic acid, on the protonmotive force in Escherichia coli membrane vesicles was investigated. Radioactive chemical probes were used to determine the two components of the protonmotive force: delta pH (pH difference) and delta psi (membrane potential). Both types of compound selectively eliminated delta pH across the membrane, while leaving delta psi much less disturbed indicating that transport inhibition by neutralization of the protonmotive force cannot be the only mechanism of action for the food preservatives tested.     

Impaired febrile response with age: role of thermogenesis in brown adipose tissue.

We demonstrated previously that in Escherichia coli-infected rats, the heat necessary for the febrile response is a result of thermogenesis in brown adipose tissue (BAT). To investigate whether senescent rats have an impaired febrile response to infection and whether such an impairment is a result of attenuated sympathetically activated thermogenesis in BAT, we assessed body temperature and the increase in mitochondrial guanosine 5'-diphosphate (GDP) binding sites in interscapular BAT in response to E. coli administration in young and senescent male F-344 rats. There was a significant delay of 2 hr in the onset of fever in the older animals. In addition, in senescent rats, the peak fever (1.0 +/- 0.1 delta degrees C vs 2.2 +/- 0.1) and the cumulative fever (383 +/- 43 delta degrees C.min vs 775 +/- 69) were significantly less than in the young rats (P less than 0.005). Baseline levels of GDP binding were the same in young and old rats. In young rats, during the rising phase of the fever, E. coli infection resulted in a 50% increase in the density of GDP binding sites in BAT mitochondria. In contrast, there was no increase in GDP binding in the older rats following infection. The failure to increase GDP binding may be a result of a reduced ability to unmask reserve GDP binding sites. Alternatively, there may be fewer total GDP binding sites (masked and unmasked) in senescent rats and these sites may already be unmasked. Collectively, these data suggest that the impaired febrile response with age is due to reduced thermogenesis in BAT.     

Adenosine 5''-triphosphate synthesis driven by a protonmotive force in membrane vesicles of Escherichia coli.

Adenosine 5'-triphosphate (ATP) synthesis energized by an artificially imposed protonmotive force (delta p) in adenosine 5'-diphosphate-loaded membrane vesicles of Escherichia coli was investigated. The protonmotive force is composed of an artificially imposed pH gradient (delta pH) or membrane potential (deltapsi), or both. A delta pH was established by a rapid alteration of the pH of the assay medium. A delta psi was created by the establishment of diffusion potential of K+ in the presence of valinomycin. The maximal amount of ATP synthesized was 0.4 to 0.5 nmol/mg of membrane protein when energized by a delta pH and 0.2 to 0.3 nmol/mg of membrane protein when a delta psi was imposed. Simultaneous imposition of both a delta pH and delta psi resulted in the formation of greater amounts of ATP (0.8 nmol/mg of membrane protein) than with either alone. The amount of ATP synthesized was roughly proportional to the magnitude of the artificially imposed delta p. Although p-chloromercuribenzoate, 2-heptyl-4-hydroxyquinoline-N-oxide, or NaCN each inhibits oxidation of D-lactate, and thus oxidative phosphorylation, none inhibited ATP synthesis driven by an artificially imposed delta p. Membrane vesicles prepared from uncA or uncB strains, which are defective in oxidative phosphorylation, likewise were unable to catalyze ATP synthesis when energy was supplied by an artificially imposed delta p.     

Brown adipose tissue, liver, and diet-induced thermogenesis in cafeteria diet-fed rats

Diet-induced thermogenesis (DIT) in young rats overeating a "cafeteria" (CAF) diet of palatable human foods is characterized by a chronic, propranolol-inhibitable elevation in resting metabolic rate (VO2) and is associated with various changes in brown adipose tissue (BAT) that have been taken as evidence for BAT as the effector of DIT. But direct evidence for participation of BAT in DIT has been lacking. By employing a nonocclusive cannula to sample the venous effluent of interscapular BAT (IBAT) for analysis of its O2 content and measuring tissue blood flow with microspheres, we accomplished direct determination (Fick principle) of the O2 consumption of BAT in conscious CAF rats. In comparison with normophagic controls fed chow, the CAF rats exhibited a 43% increase in metabolizable energy intake, reduced food efficiency, a 22% elevation in resting VO2 at 28 degrees C (thermoneutrality) or 24 degrees C (housing temperature), and characteristic changes in the properties of their BAT (e.g., increased mass, protein content and mitochondrial GDP binding). They also exhibited the greater metabolic response to exogenous noradrenaline characteristic of CAF rats and the near elimination by propranolol of their elevation in VO2. By the criterion of their elevated VO2, the CAF rats were exhibiting DIT at the time of the measurements of BAT blood flow and blood O2 levels. However, BAT O2 consumption was found to be no greater in the CAF rats than in the controls at either 28 or 24 degrees C. At 28 degrees C it accounted for less than 1% of whole body VO2; at 24 degrees C it increased to about 10% of overall VO2 in both diet groups.(ABSTRACT TRUNCATED AT 250 WORDS)     

Estimation of the pH gradient and donnan potential in de-energized heart mitochondria

The transmembrane pH gradient maintained by nonrespiring, uncoupled heart mitochondria has been estimated using the distribution of methylamine and of 5,5-dimethyl-2,4-oxazolidinedione (DMO) and compared with the delta pH reported by the fluorescent probe 2,7-biscarboxyethyl-5(6)-carboxyfluorescein (BCECF). Under these conditions the protonmotive force approaches zero and the membrane potential (delta psi) should equal 59 delta pH (P. Mitchell and J. Moyle (1969) Eur. J. Biochem. 7, 471-484). The delta pH reported by DMO corresponds closely to that estimated by BCECF and is consistent with a Donnan potential of no greater than about -30 mV (interior negative) for nonenergized mitochondria in a sucrose medium. This potential appears to result from the presence of immobile negative charges in the matrix and is eliminated by addition of 10 to 25 mM KCl. Measurements of delta pH using the methylamine and of delta tsi using the distribution of 42K+ in the presence of valinomycin result in an apparent overestimation of these parameters due to binding of these components to negative sites on the membrane. Increasing ionic strength decreases this contribution of surface potential, but significant binding can still be detected in 100 mM KCl. These studies suggest that 42K+ (or 86Rb+) is far from an ideal probe for measuring delta tsi in respiring mitochondria and may significantly overestimate this parameter, especially in sucrose media.     

Stoichiometry of the H+-ATPase of growing and resting, aerobic Escherichia coli

The H+/ATP stoichiometry of the proton-translocating ATPase was investigated in growing and nongrowing, respiring cells of Escherichia coli. The protonmotive force, delta p, was determined by measuring the transmembrane chemical gradient of protons, delta pH, from the cellular accumulation of benzoate anions, and the electrical gradient, delta psi, from the accumulation of the lipophilic cation tetraphenylphosphonium (TPP+). The accumulation of lactose was also used to calculate the delta p in this lactose operon constitutive beta-galactosidase negative mutant. The phosphorylation potential, delta GP', was determined by measuring the cellular concentration of ATP, ADP, and inorganic phosphate. According to chemiosmotic principles, at steady state the phosphorylation potential is in thermodynamic equilibrium with the protonmotive force, and thus the ratio delta p/delta GP' can be used to determine the H+/ATP ratio. Respiring E. coli cells, in mid-exponential phase of growth or incubated in buffer, at external pHs from 6.25 to 8.25 had a constant delta GP' of about 500 mV. The H+/ATP ratio was found to be 3 when the delta p value derived from lactose accumulation levels was used. However, when the delta p values derived from delta pH and delta psi were used in the calculations, the H+/ATP ratio varied from about 2.5 at external pH 6.25 to about 4 at pH 8.25. Arguments are presented for the hypothesis that the delta psi values obtained from the TPP+ measurements are likely to be inaccurate and that a value of 3 H+/ATP, independent of the external pH, is likely to be the valid stoichiometry.     

Effect of temperature on lipoprotein lipase and lipogenic enzyme activities in brown adipose tissue of hypophysectomized rats

It has been shown that the same modifications on the composition of brown adipose tissue (BAT) which are normally induced following cold stimulation are also observed in hypophysectomized rats acclimated either at 28 degrees C or 15 degrees C. To test the possibility of BAT stimulation in hypophysectomized rats, we have determined some enzymatic activities known to modulate the energy supply to that organ. Seven week old Long-Evans rats were hypophysectomized. Three weeks later, they were exposed to either 28 degrees C or 15 degrees C ambient temperature for five or six weeks. Hypophysectomized rats were compared to age matched or weight matched controls. Total lipoprotein lipase activity (LPL) (triglyceride uptake) was enhanced in BAT of 28 degrees C hypophysectomized rats compared to controls. Cold acclimation led to a large increased activity. Total LPL activity was comparable in BAT of hypophysectomized and control rats. Total malic enzyme and glucose-6-phosphate dehydrogenase activities (in situ lipogenesis) were doubled in BAT of 28 degrees C hypophysectomized compared to controls. A large enhancement was observed in BAT of either 15 degrees C control or 15 degrees C hypophysectomized rats. Among the studied organs (liver, white adipose tissue, heart, BAT) hypophysectomy promotes the three enzyme activities only in BAT. These variations were discussed with relation to the effect of hypophysectomy on brown adipose tissue at 15 degrees C and 28 degrees C.     

A requirement for ATP for beta-galactoside transport by Bacillus alcalophilus.

Lactose-grown cells of Bacillus alcalophilus actively transported methylthio-beta, D-galactoside (TMG) in a range of pH values from 7.5 to 10.5 with a pH optimum at 8.5. The TMG was accumulated in a chemically unmodified form, and cell extracts failed to catalyze either ATP or P-enolpyruvate-dependent phosphorylation of TMG. At pH 8.5, the lactose-grown cells exhibited a transmembrane proton gradient (deltapH) of 1.38 units, interior acid, and a transmembrane electrical potential (delta psi) of -132 mV. Accordingly, the total protonmotive force at this pH was very low, -51mV. Several lines of evidence indicate that the protonmotive force or delta psi did not directly energize TMG transport but, rather, that ATP was directly required: (a) in cells treated with arsenate so that the delta psi was unaffected and cellular ATP levels were markedly lowered, TMG transport was inhibited in proportion to the reduction of cellular ATP, while electrogenic alpha-aminoisobutyric acid transport was not; (b) when a valinomycin-induced potassium diffusion potential was established in starved cells, alpha-aminoisobutyric acid transport, but not TMG transport, was stimulated; and (c) in a series of experiments in which the delta psi was rapidly abolished by treatment with gramicidin, ATP levels declined slowly and the rate of TMG transport correlated directly with ATP levels rather than with the delta psi. Consumption of cellular ATP concomitant with TMG transport could be demonstrated.     

The molecular and biochemical basis of nonshivering thermogenesis in an African endemic mammal, Elephantulus myurus

Uncoupling protein 1 (UCP1) mediated nonshivering thermogenesis (NST) in brown adipose tissue (BAT) is an important avenue of thermoregulatory heat production in many mammalian species. Until recently, UCP1 was thought to occur exclusively in eutherians. In the light of the recent finding that UCP1 is already present in fish, it is of interest to investigate when UCP1 gained a thermogenic function in the vertebrate lineage. We elucidated the basis of NST in the rock elephant shrew, Elephantulus myurus (Afrotheria: Macroscelidea). We sequenced Ucp1 and detected Ucp1 mRNA and protein restricted to brown fat deposits. We found that cytochrome c oxidase activity was highest in these deposits when compared with liver and skeletal muscle. Consistent with a thermogenic function of UCP1 isolated BAT mitochondria showed increased state 4 respiration in the cold, as well as palmitate-induced, GDP-sensitive proton conductance, which was absent in liver mitochondria. On the whole animal level, evidence of thermogenic function was further corroborated by an increased metabolic response to norepinephrine (NE) injection. Cold acclimation (18 degrees C) led to an increased basal metabolic rate relative to warm acclimation (28 degrees C) in E. myurus, but there was no evidence of additional recruitment of NE-induced NST capacity in response to cold acclimation. In summary, we showed that BAT and functional UCP1 are already present in a member of the Afrotheria, but the seasonal regulation and adaptive value of NST in Afrotherians remain to be elucidated.     

The entrapment of the Ca2+ indicator arsenazo III in the matrix space of rat liver mitochondria by permeabilization and resealing. Na+-dependent and -independent effluxes of Ca2+ in arsenazo III-loaded mitochondria.

The permeabilization-resealing technique [Al-Nasser & Crompton, Biochem. J. (1986) 239, 19-29] has been applied to the entrapment of arsenazo III in the matrix compartment of rat liver mitochondria. The addition of 10 mM-arsenazo III to mitochondria permeabilized with Ca2+ partially restores the inner-membrane potential (delta psi) and leads to the recovery of 3.9 nmol of arsenazo III/mg of protein in the matrix when the mitochondria are washed three times. The recovery of entrapped arsenazo III is increased 2-fold by 4 mM-Mg2+, which also promotes repolarization. ATP with or without Mg2+ decreased arsenazo III recovery. Under all conditions, less arsenazo III than [14C]sucrose is entrapped, in particular in the presence of ATP. The amount of arsenazo III entrapped is proportional to the concentration of arsenazo III used as resealant, and is equally distributed between heavy and light mitochondria. Arsenazo III-loaded permeabilized and resealed (PR) mitochondria develop delta psi values of 141 +/- 3 mV. PR mitochondria retain arsenazo III and [14C]sucrose for more than 2 h at 0 degrees C. At 25 degrees C, and in the presence of Ruthenium Red, PR mitochondria lose arsenazo III and [14C]sucrose at equal rates, but Ca2+ efflux is more rapid; this indicates that Ca2+ is released by an Na+-independent carrier in addition to permeabilization. The Na+/Ca2+ carrier of PR mitochondria is partially (60%) inhibited by extramitochondrial free Ca2+ stabilized with Ca2+ buffers; maximal inhibition is attained with 2 microM free Ca2+. A similar inhibition occurs in normal mitochondria with 3.5 nmol of matrix Ca2+/mg of protein, but the inhibition is decreased by increased matrix Ca2+. The data suggest the presence of Ca2+ regulatory sites on the Na+/Ca2+ carrier that change the affinity for matrix free Ca2+.