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To test if mitochondrial uncoupling in white adipocytes is responsible for obesity resistance of the aP2-Ucp transgenic mice expressing ectopic uncoupling protein 1 (UCPI) in white fat, mitochondrial membrane potential (delta psi(m)) was estimated by flow cytometry in adipocytes isolated from gonadal fat. Ectopic UCP1 (approximately 0.8 mol UCP1/mol respiratory chain) decreased the delta psi(m) and rendered the potential sensitive to GDP and fatty acids. These ligands of UCP1 had no effect on delta psi(m) in white adipocytes from non-transgenic mice, suggesting that the function of endogenous UCP2 in adipocytes was not affected. The results support the hypothesis that mitochondrial uncoupling in white fat may prevent development of obesity.  相似文献   

4.
Addition of fatty acids to isolated hepatocytes raised respiration rate by 92% and raised mitochondrial membrane potential (delta psi m) in situ from 155 to 162 mV suggesting that the increased fuel supply had a greater effect on respiration rate than any increases in processes that consumed mitochondrial protonmotive force (delta p). The relationship between delta psi m and respiration rate was changed by addition of fatty acids or lactate, showing that there was also stimulation of delta p-consuming reactions. In the presence of oligomycin the relationship between delta psi m and respiration rate was unaffected by substrate addition, showing that the kinetics of delta p consumption by the H+ leak across the mitochondrial inner membrane were unchanged. The stimulation of delta p consumers by fatty acids therefore must be in the pathways of ATP synthesis and turnover. Inhibition of several candidate ATP-consuming reactions had little effect on basal or fatty acid-stimulated respiration, and the nature of the ATP turnover reactions in hepatocytes remains speculative. We conclude that fatty acids (and other substrates) stimulate respiration in hepatocytes in two distinct ways. They provide substrate for the electron transport chain, raising delta p and increasing the non-ohmic proton leak across the mitochondrial inner membrane and the rate of oxygen consumption. They also directly stimulate an unidentified delta p-consuming reaction in the cytoplasm. They do not work by uncoupling or by stimulation of intramitochondrial ATP-turnover reactions.  相似文献   

5.
Bloodstream forms of Trypanosoma brucei were found to maintain a significant membrane potential across their mitochondrial inner membrane (delta psi m) in addition to a plasma membrane potential (delta psi p). Significantly, the delta psi m was selectively abolished by low concentrations of specific inhibitors of the F1F0-ATPase, such as oligomycin, whereas inhibition of mitochondrial respiration with salicylhydroxamic acid was without effect. Thus, the mitochondrial membrane potential is generated and maintained exclusively by the electrogenic translocation of H+, catalysed by the mitochondrial F1F0-ATPase at the expense of ATP rather than by the mitochondrial electron-transport chain present in T. brucei. Consequently, bloodstream forms of T. brucei cannot engage in oxidative phosphorylation. The mitochondrial membrane potential generated by the mitochondrial F1F0-ATPase in intact trypanosomes was calculated after solving the two-compartment problem for the uptake of the lipophilic cation, methyltriphenylphosphonium (MePh3P+) and was shown to have a value of approximately 150 mV. When the value for the delta psi m is combined with that for the mitochondrial pH gradient (Nolan and Voorheis, 1990), the mitochondrial proton-motive force was calculated to be greater than 190 mV. It seems likely that this mitochondrial proton-motive force serves a role in the directional transport of ions and metabolites across the promitochondrial inner membrane during the bloodstream stage of the life cycle, as well as promoting the import of nuclear-encoded protein into the promitochondrion during the transformation of bloodstream forms into the next stage of the life cycle of T. brucei.  相似文献   

6.
In this communication, we show that the plant uncoupling mitochondrial protein (PUMP) present in potato tuber mitochondria is induced by aging at 28 degrees C and that this induction is strongly stimulated when the potato tubers are stored at low temperature (4 degrees C). PUMP activity was detected by the degree of linoleic acid (LA)-induced ATP-sensitive mitochondrial uncoupling measured as a function of the decrease in membrane potential (delta psi). The PUMP content was evaluated by immunoblot analysis using polyclonal antibodies raised against potato PUMP that specifically detected a 32 kDa band. In agreement with the effect of LA on delta psi, the content of the 32 kDa band increased during storage and was stimulated by low temperature. These results support the proposed role of PUMP in plant thermogenesis and possibly in fruit ripening and senescence.  相似文献   

7.
No methods are currently available for fully reliable monitoring of membrane potential changes in suspensions of walled cells such as yeast. Our method using the Nernstian cyanine probe diS-C3(3) monitors even relatively fast changes in membrane potential delta psi by recording the shifts of probe fluorescence maximum lambda max consequent on delta psi-dependent probe uptake into, or exit from, the cells. Both increased [K+]out and decreased pHout, but not external NaCl or choline chloride depolarise the membrane. The major ion species contributing to the diS-C3(3)-reported membrane potential in S. cerevisiae are thus K+ and H+, whereas Na+ and Cl- do not perceptibly contribute to measured delta psi. The strongly pHout-dependent depolarisation caused by the protonophores CCCP and FCCP, lack of effect of the respiratory chain inhibitors rotenone and HQNO on the delta psi, as well as results obtained with a respiration-deficient rho- mutant show that the major component of the diS-C3(3)-reported membrane potential is the delta psi formed on the plasma membrane while mitochondrial potential forms a minor part of the delta psi. Its role may be reflected in the slight depolarisation caused by the F1F0-ATPase inhibitor azide in both rho- mutant and wildtype cells. Blocking the plasma membrane H(+)-ATPase with the DMM-11 inhibitor showed that the enzyme participates in delta psi build-up both in the absence and in the presence of added glucose. Pore-forming agents such as nystatin cause a fast probe entry into the cells signifying membrane damage and extensive binding of the probe to cell constituents reflecting obviously disruption of ionic balance in permeabilised cells. In damaged cells the probe therefore no longer reports on membrane potential but on loss of membrane integrity. The delta psi-independent probe entry signalling membrane damage can be distinguished from the potential-dependent diS-C3(3) uptake into intact cells by being insensitive to the depolarising action of CCCP.  相似文献   

8.
The objective of this study was to evaluate whether ceramide, palmitate, and inhibitors of mitochondrial electron transport chain shared similar effects on the mitochondria of intact cardiomyocytes in order to determine the likelihood that ceramide and palmitate utilize similar mitochondrial mechanisms or pathways to apoptosis. In embryonic chick cardiomyocytes, ceramide, 100 microM for 24h, induced a 42.9+/-5.8% increase in cell death assessed by the MTT assay, and a significant (P<0.01) 3.9+/-0.6-fold increase in apoptosis assessed by propidium iodide staining of permeabilized cells. Mitochondrial potential (delta psi (m)), as demonstrated microscopically and by flow cytometry of cardiomyocytes stained with a J-aggregate dye, was markedly and significantly reduced by ceramide, palmitate, and two different inhibitors of the mitochondrial electron transport chain-rotenone and antimycin A. In contrast, the effect on mitochondria as assessed by CMX-Ros oxidation was dramatically different, as palmitate, rotenone, and antimycin A each produced a reduction, while ceramide increased CMX-Ros fluorescence. Further ceramide-induced cardiomyocyte apoptosis and loss of delta psi (m) operated through a cyclosporine-insensitive pathway similar to rotenone and antimycin A but distinct from palmitate which induced apoptosis though a cyclosporine-sensitive mechanism in these cells. These data suggest that ceramide acts on the mitochondria of intact cells through a cyclosporine-insensitive mechanism likely from a combination of actions including production of mitochondrial oxidants. The discordant findings between ceramide and palmitate suggest that palmitate-induced cell death is not primarily mediated by de novo ceramide synthesis.  相似文献   

9.
Data from a number of laboratories suggest that the exchange of glutamate for aspartate across the mitochondrial inner membrane is stimulated by glucagon and by Ca2+-mobilizing hormones. The purpose of this study was to determine the site of action of these hormones. Two possibilities were considered and tested. The first hypothesis is that the mitochondrial membrane electrical potential gradient (delta psi m) in the cells is increased by the hormones; and that the putative increase in delta psi m stimulates aspartate efflux. The second possibility is that Ca2+ mediates decreases in cellular levels of alpha-ketoglutarate, secondary to stimulation of alpha-ketoglutarate dehydrogenase, and that the decrease in alpha-ketoglutarate stimulates aspartate production by mitochondria. The effect of glucagon on delta psi m was estimated in intact hepatocytes using the lipophilic cation tetraphenyl phosphonium. No increase in delta psi m was observed due to hormone treatment. On the other hand, alpha-ketoglutarate was found to be an effective competitive inhibitor of aspartate formation via glutamate transamination by isolated liver mitochondria (Ki = 0.55 mM).  相似文献   

10.
Imaging the permeability pore transition in single mitochondria.   总被引:11,自引:0,他引:11       下载免费PDF全文
In mitochondria the opening of a large proteinaceous pore, the "mitochondrial permeability transition pore" (MTP), is known to occur under conditions of oxidative stress and matrix calcium overload. MTP opening and the resulting cellular energy deprivation have been implicated in processes such as hypoxic cell damage, apoptosis, and neuronal excitotoxicity. Membrane potential (delta psi(m)) in single isolated heart mitochondria was measured by confocal microscopy with a voltage-sensitive fluorescent dye. Measurements in mitochondrial populations revealed a gradual loss of delta psi(m) due to the light-induced generation of free radicals. In contrast, the depolarization in individual mitochondria was fast, sometimes causing marked oscillations of delta psi(m). Rapid depolarizations were accompanied by an increased permeability of the inner mitochondrial membrane to matrix-entrapped calcein (approximately 620 Da), indicating the opening of a large membrane pore. The MTP inhibitor cyclosporin A significantly stabilized delta psi(m) in single mitochondria, thereby slowing the voltage decay in averaged recordings. We conclude that the spontaneous depolarizations were caused by repeated stochastic openings and closings of the transition pore. The data demonstrate a much more dynamic regulation of membrane permeability at the level of a single organelle than predicted from ensemble behavior of mitochondrial populations.  相似文献   

11.
Doxorubicin induces caspase-3 activation and apoptosis in Jurkat cells but inhibition of this enzyme did not prevent cell death, suggesting that another caspase(s) is critically implicated. Western blot analysis of cell extracts indicated that caspases 2, 3, 4, 6, 7, 8, 9, and 10 were activated by doxorubicin. Cotreatment of cells with the caspase inhibitors Ac-DEVD-CHO, Z-VDVAD-fmk, Z-IETD-fmk, and Z-LEHD-fmk alone or in combination, or overexpression of CrmA, prevented many morphological features of apoptosis but not loss of mitochondrial membrane potential (delta(psi)m), phospatidilserine exposure, and cell death. Western blot analysis of cells treated with doxorubicin in the presence of inhibitors allowed elucidation of the sequential order of caspase activation. Z-IETD-fmk or Z-LEHD-fmk, which inhibit caspase-9 activity, blocked the activation of all caspases studied, lamin B degradation, and the development of apoptotic morphology, but not cell death. All morphological and biochemical features of apoptosis, as well as cell death, were prevented by cotreatment of cells with the general caspase inhibitor Z-VAD-fmk or by overexpression of Bcl-2. Doxorubicin cytotoxicity was also blocked by the protein synthesis inhibitor cycloheximide. Delayed addition of Z-VAD-fmk after doxorubicin treatment, but prior to the appearance of cells displaying a low delta(psi)m, prevented cell death. These results, taken together, suggest that the key mediator of doxorubicin-induced apoptosis in Jurkat cells may be an inducible, Z-VAD-sensitive caspase (caspase-X), which would cause delta(psi)m loss, release of apoptogenic factors from mitochondria, and cell death.  相似文献   

12.
BACKGROUND: The hydrophilic bile salt ursodeoxycholate (UDCA) inhibits injury by hydrophobic bile acids and is used to treat cholestatic liver diseases. Interestingly, hepatocyte cell death from bile acid-induced toxicity occurs more frequently from apoptosis than from necrosis. However, both processes appear to involve the mitochondrial membrane permeability transition (MPT). In this study, we determined the inhibitory effect of UDCA on deoxycholic acid (DCA)-induced MPT in isolated mitochondria by measuring changes in transmembrane potential (delta psi m) and production of reactive oxygen species (ROS). In addition, we examined the expression of apoptosis-associated proteins in mitochondria isolated from livers of bile acid-fed animals. MATERIALS AND METHODS: Adult male rats were maintained on standard diet supplemented with DCA and/or UDCA for 10 days. Mitochondria were isolated from livers by sucrose/percoll gradient centrifugation and MPT was measured using spectrophotometric and fluorimetric assays. delta psi m and ROS generation were determined by FACScan analysis. Cytoplasmic and mitochondrial protein abundance were determined by Western blot analysis. RESULTS: DCA increased mitochondrial swelling 25-fold over controls (p < 0.001); UDCA reduced the swelling by > 40% (p < 0.001). Similarly, UDCA inhibited DCA-mediated release of calcein-loaded mitochondria by 50% (p < 0.001). delta psi m was significantly decreased in mitochondria incubated with DCA but not with UDCA. delta psi m disruption was followed closely by increased superoxide anion and peroxides production (p < 0.01). Coincubation of mitochondria with UDCA significantly inhibited the changes associated with DCA (p < 0.05). In vivo, DCA feeding was associated with a 4.5-fold increase in mitochondria-associated Bax protein levels (p < 0.001); combination feeding with UDCA almost totally inhibited this increase (p < 0.001). CONCLUSION: UDCA significantly reduces DCA-induced disruption of delta psi m, ROS production, and Bax protein abundance in mitochondria, suggesting both short- and long-term mechanisms in preventing MPT. The results suggest a possible role for UDCA as a therapeutic agent in the treatment of both hepatic and nonhepatic diseases associated with high levels of apoptosis.  相似文献   

13.
Previous reports indicate that intravenous infusion of HCl can alter breathing and blood pressure even if reductions in systemic arterial pH are prevented. To extend these findings, as well as to determine whether other acids elicit comparable results, this report compares the cardiopulmonary response between right atrial infusion of lactic acid and HCl in awake ponies. Lactic acid, infused at a dose of 1.5 mmol/kg over 18 min, lowered systemic and pulmonary arterial pH 0.062 and 0.092 U, respectively, and increased pulmonary arterial pressure (delta Ppa, 4 mmHg), heart rate (HR, 4/min), and tidal volume (delta VT, 190 ml/m2). HCl, infused at a reduced dose of 0.5 mmol/kg over 18 min, lowered systemic and pulmonary arterial pH 0.024 and 0.047 U, respectively, but produced increases in Ppa (delta 23 mmHg), HR (delta 42/min), and VT (delta 321 ml/m2) that were significantly greater than from the larger dose of lactic acid. These results indicate that cardiopulmonary responses to infusion acidosis differ between the type of acid infused. It is suggested that, in the unanesthetized pony, HCl-induced infusion acidosis has a unique cardiopulmonary-stimulating action unrelated to the pH changes imparted to the circulating arterial blood and that this response is absent during the infusion of lactic acid.  相似文献   

14.
The lipophilic triphenylmethylphosphonium cation (TPMP+) has been employed to measure delta psi m, the electrical potential across the inner membrane of the mitochondria of intact hepatocytes. The present studies have examined the validity of this technique in hepatocytes exposed to graded concentrations of inhibitors of mitochondrial energy transduction. Under these conditions, TPMP+ uptake allows a reliable measure of delta psi m in intracellular mitochondria, provided that the ratio [TPMP+]i/[TPMP+]e is greater than 50:1 and that at the end of the incubation more than 80% of the hepatocytes exclude Trypan blue. Hepatocytes, staining with Trypan blue, incubated in the presence of Ca2+, do not concentrate TPMP+. The relationships between delta psi m and two other indicators of cellular energy state, delta GPc and Eh, or between delta psi m and J0, were examined in hepatocytes from fasted rats by titration with graded concentrations of inhibitors of mitochondrial energy transduction. Linear relationships were generally observed between delta psi m and delta GPc, Eh or J0 over the delta psi m range of 120-160 mV, except in the presence of carboxyatractyloside or oligomycin, where delta psi m remained constant. Both the magnitude and the direction of the slope of the observed relationships depended upon the nature of the inhibitor. Hepatocytes from fasted rats synthesized glucose from lactate or fructose, and urea from ammonia, at rates which were generally linear functions of the magnitude of delta psi m, except in the presence of oligomycin or carboxyatractyloside. Linear relationships were also observed between delta psi m and the rate of formation of lactate in cells incubated with fructose and in hepatocytes from fed rats. The linear property of these force-flow relationships is taken as evidence for the operation of thermodynamic regulatory mechanisms within hepatocytes.  相似文献   

15.
The mitochondrial membrane potential (delta psi m) in intact lymphocytes was calculated by measuring the distribution of radiolabelled methyltriphenylphosphonium cation. The value obtained was 120 mV. The pH gradient across the mitochondrial membrane in situ (delta pH m) was estimated to be 73 mV (1.2 pH units). Thus the electrochemical gradient of protons was about 190 mV. Addition of the mitogen concanavalin A did not alter delta psi m, showing that, if movement of Ca2+ across the inner membrane of lymphocyte mitochondria occurs when concanavalin A is added, it is accompanied by charge-compensating ion movements.  相似文献   

16.
Mitochondrial dysfunction has been associated with insulin resistance, obesity and diabetes. Hyperinsulinaemia and hyperlipidaemia are hallmarks of the insulin-resistant state. We sought to determine the contributions of high insulin and saturated fatty acid exposure to mitochondrial function and biogenesis in cultured myocytes. Differentiated C2C12 myotubes were left untreated or exposed to chronic high insulin or high palmitate. Mitochondrial function was determined assessing: oxygen consumption, mitochondrial membrane potential, ATP content and ROS (reactive oxygen species) production. We also determined the expression of several mitochondrial genes. Chronic insulin treatment of myotubes caused insulin resistance with reduced PI3K (phosphoinositide 3-kinase) and ERK (extracellular-signal-regulated kinase) signalling. Insulin treatment increased oxygen consumption but reduced mitochondrial membrane potential and ROS production. ATP cellular levels were maintained through an increased glycolytic rate. The expression of mitochondrial OXPHOS (oxidative phosphorylation) subunits or Mfn-2 (mitofusin 2) were not significantly altered in comparison with untreated cells, whereas expression of PGC-1α (peroxisome-proliferator-activated receptor γ co-activator-1α) and UCPs (uncoupling proteins) were reduced. In contrast, saturated fatty acid exposure caused insulin resistance, reducing PI3K (phosphoinositide 3-kinase) and ERK (extracellular-signal-regulated kinase) activation while increasing activation of stress kinases JNK (c-Jun N-terminal kinase) and p38. Fatty acids reduced oxygen consumption and mitochondrial membrane potential while up-regulating the expression of mitochondrial ETC (electron chain complex) protein subunits and UCP proteins. Mfn-2 expression was not modified by palmitate. Palmitate-treated cells also showed a reduced glycolytic rate. Taken together, our findings indicate that chronic insulin and fatty acid-induced insulin resistance differentially affect mitochondrial function. In both conditions, cells were able to maintain ATP levels despite the loss of membrane potential; however, different protein expression suggests different adaptation mechanisms.  相似文献   

17.
Presumptive evidence suggests that the brown fat mitochondrial uncoupling protein, thermogenin, is involved in the mechanism of stimulation of respiration by norepinephrine in the intact tissue. Conflicting data have been reported which suggest involvement of either adenine nucleotides, or fatty acids, or long chain acyl-CoA, or protons in the physiological regulation. We measured the electrical potential gradient across the mitochondrial membrane (delta psi m) in control cells and in cells stimulated with norepinephrine, using the accumulation of lipophilic cation, tetraphenylphosphonium, as an indicator of the potential gradient. The value of delta psi m in the cells in the control state is 116 mV, and in the hormonally stimulated state it is 56.6 mV. This supports the view that the protein is involved in the mechanism of hormone action. Other studies were designed to distinguish between the effects of fatty acids and ATP levels on the uncoupling protein in isolated mitochondria and in the adipocytes. ATP levels and fatty acid levels inside intact cells were independently varied using oligomycin or external fatty acids. Their effect on thermogenin was monitored as the capacity of the cells for reverse electron transport from durohydroquinone. The results suggest that ATP modulates the activity of thermogenin, while fatty acids can alter the relationship between ATP and thermogenin activity such that the protein appears to be activated at a higher cellular ATP level in the presence of fatty acids than in their absence.  相似文献   

18.
Energy deficit after traumatic brain injury (TBI) may alter ionic homeostasis, neurotransmission, biosynthesis, and cellular transport. Using an in vitro model for TBI, we tested the hypothesis that stretch-induced injury alters mitochondrial membrane potential (delta(psi)m) and ATP in astrocytes and neurons. Astrocytes, pure neuronal cultures, and mixed neuronal plus glial cultures grown on Silastic membranes were subjected to mild, moderate, and severe stretch. After injury, delta(psi)m was measured using rhodamine-123, and ATP was quantified with a luciferin-luciferase assay. In astrocytes, delta(psi)m dropped significantly, and ATP content declined 43-52% 15 min after mild or moderate stretch but recovered by 24 h. In pure neurons, delta(psi)m declined at 15 min only in the severely stretched group. At 48 h postinjury, delta(psi)m remained decreased in severely stretched neurons and dropped in moderately stretched neurons. Intracellular ATP content did not change in any group of injured pure neurons. We also found that astrocytes and neurons release ATP extracellularly following injury. In contrast to pure neurons, delta(psi)m in neurons of mixed neuronal plus glial cultures declined 15 min after mild, moderate, or severe stretch and recovered by 24-48 h. ATP content in mixed cultures declined 22-28% after mild to severe stretch with recovery by 24 h. Our findings demonstrate that injury causes mitochondrial dysfunction in astrocytes and suggest that astrocyte injury alters mitochondrial function in local neurons.  相似文献   

19.
Metabolically competent isolated cerebral cortical nerve terminals were used to determine the effects of triethyllead (TEL) and triethyltin (TET) on cytosolic free calcium ([Ca2+]c), on plasma and mitochondrial membrane potentials, and on oxidative metabolism. In the presence of physiological concentrations of extracellular ions, 20 microM TEL and 20 microM TET increase [Ca2+]c from 185 nM to 390 and 340 nM, respectively. A simultaneous depolarization of plasma membrane potential (delta psi p) by only 3-4 mV occurs, a drop which is insufficient to open the voltage-sensitive Ca2+ channels. In contrast, an instant and substantial depolarization of mitochondrial membrane potential (delta psi m) upon addition of TEL and TET is evident, as monitored with safranine O fluorescence. At the same concentration, TEL and TET stimulate basal respiration of synaptosomes by 45%, induce oxidation of endogenous NAD(P)H, and reduce the terminal ATP/ADP ratio by 45%. Thus, TEL and TET inhibit ATP production of intrasynaptosomal mitochondria by a mechanism consistent with uncoupling of oxidative phosphorylation. This bioenergetic effect by TEL and TET can be prevented by omitting external chloride, and a concomitant reduction of the increase in [Ca2+]c by about 60% is observed. Uncoupling of mitochondrial ATP synthesis from oxidation by TEL and TET, [corrected] a process that is dependent on external chloride, is the main mechanism by which they [corrected] increase [Ca2+]c.  相似文献   

20.
The relationship between the steady-state level of membrane potential (delta psi) and the rates of energy production and consumption has been studied in mitochondria and submitochondrial particles. The energy-linked reactions investigated were oxidative phosphorylation (with NADH, succinate, and beta-hydroxybutyrate as respiratory substrates) and nucleoside triphosphate-driven transhydrogenation from NADH to NADP and uphill electron transfer from succinate to NAD. Results have shown the following. 1) Attenuation of the rates of the energy-producing reactions results in a parallel change in the rates of the energy-consuming reactions with little or no change in the magnitude of steady-state delta psi. 2) At low rates of energy production and consumption, steady-state delta psi decreases. However, this is due largely to the energy leak of the system which lowers static-head delta psi when the rate of energy production is slow. 3) When the rate of energy production and static-head delta psi are held constant, and the rate of energy consumption is diminished by partial inhibition or the use of suboptimal conditions (e.g. subsaturating substrate concentrations), then even a small decrease in the rate of energy consumption results in an upward adjustment of the level of steady-state delta psi. The lower the rate of energy input, the greater the upward adjustment of steady-state delta psi upon suppression of the rate of energy consumption. 4) The above results have been discussed with regard to the role of bulk-phase delta mu H+ or delta psi in the mitochondrial energy transfer reactions.  相似文献   

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