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1.
In this work, we studied the effect of N-ethylmaleimide on permeability transition. The findings indicate that the amine inhibited the effects of carboxyatractyloside and agaric acid. It is known that these reagents interact with the adenine nucleotide carrier through the cytosolic side. When oleate, which interacts through the matrix side, was used it was found that the amine amplified the effects of oleate on permeability transition. The results also show that N-ethylmaleimide strengthened the inhibition induced by carboxyatractyloside, agaric acid, and oleate on ADP exchange. Furthermore, it was also found that oleate improved the binding of eosin-5-maleimide on the adenine nucleotide translocase.  相似文献   

2.
The effect of agaric acid (α cetyl citric acid) on the transport of ADP and ATP has been examined in rat liver mitochondria. Respiration stimulated by ADP is progresively inhibited by agaric acid; maximal inhibition is attained at 40 μM agaric acid. ATPase activity is inhibited 30% by 20 μM agaric acid. The exchange of adenine nucleotides is competitively inhibited by agaric acid.  相似文献   

3.
The effect of agaric acid as inducer of mitochondrial permeability transition was studied. It was found that: (i) agaric acid (AA) promoted efflux of accumulated Ca2+, collapse of transmembrane potential, and mitochondrial swelling; (ii) these effects depend on membrane fluidity; (iii) ADP inhibited the effect of AA on Ca2+ efflux, and (iv) AA blocked binding of the sulfhydryl reagent, eosin-5-maleimide, to the adenine nucleotide translocase. It is proposed that AA induces pore opening through binding of the citrate moiety to the ADP/ATP carrier; this interaction must be stabilized by insertion of the alkyl chain in the lipid milieu of the membrane.  相似文献   

4.
The effect of Ca2+ on the adenine nucleotide translocase activity of intact rat liver mitochondria has been studied. The results indicate that in mitochondria which have been allowed to accumulate Ca2+, the activity of the translocase is strongly diminished; half-maximal inhibition is attained when approximately 40 nmol of Ca2+ are accumulated/mg of mitochondrial protein. Inhibition of electron transport or uncoupling prevents the Ca2+-induced inhibition of translocase activity; inhibition of Ca2+ uptake by ruthenium red also prevents the inhibition of the exchange. These experiments indicate that internal, but not external Ca2+ is responsible for the inhibition of adenine nucleotide translocase activity. Inhibition of the exchange activity by Ca2+ occurs even in conditions in which external adenine nucleotide concentrations are rate-limiting.  相似文献   

5.
Experiments were conducted on freshly isolated rat liver mitochondria and mitochondria subjected to ageing by two different methods. It was shown that the work of the mitochondrial system of fatty acid activation could lead to inhibition of the adenine nucleotide transport through the internal mitochondrial membrane. Inhibition of adenine nucleotide translocase was eliminated by preincubation of mitochondria with carnitine. The presence in the mitochondrial preparations of fatty acids in the concentration adequate for induction of inhibition of addition of CoA and ATP served as a preculiarity of adenine nucleotide translocase inhibition of the ageing mitochondria. The data obtained permitted to make a supposition on the participation of acyl-CoA formed by the mitochondrial acyl-CoA-synthetase in the regulation of adenine nucleotide transport into the mitochondria.  相似文献   

6.
Previous reports that ethacrynic acid and furosemide diminish mitochondrial P : O ratios and reduce (Na+ + K+)-ATPase activity suggested that these diuretics may inhibit mitochondrial phosphorylation reactions. This possibility was initially studied by determining the effects of ethacrynic acid and furosemide on [32P]ATP exchange activity of rat kidney mitochondria. Concentrations of both drugs at 10(-4) M or greater, significantly inhibited [32P]ATP exchange. To investigate the mechanism of this inhibition, the effects of ethacrynic acid and furosemide on the ATPase activity of intract mitochondria and sonicated submitochondrial particles were determined. Both diuretics inhibited ATPase activity of intact mitochondria at 10(-4) M. In contrast, ATPase of submitochondrial particles was significantly less susceptible to inhibition by the diuretics. These results suggested that ethacrynic acid anf furosemide inhibit adenine nucleotide transport across the mitochondrial membrane. This was directly tested by determining the effects of the diretics on the mitochondrial adenine nucleotide translocase. At 5-10(-4) M, both ethacrynic acid and furosemide significantly inhibited adenine nucleotide transport. These findings suggest that ethacrynic acid and furosemide may diminish renal tubular solute reabsorption by direct inhibition of adenine nucleotide transport across the mitochondrial inner membrane.  相似文献   

7.
The translocation of phosphoenolpyruvate by the tricarboxylate carrier system in rat liver mitochondria was shown to be inhibited by atractyloside and long chain fatty acyl CoA esters as well as benzene, 1, 2, 3 tricarboxylate. By contrast benzene 1, 2, 3 tricarboxylate did not inhibit atractyloside sensitive adenine nucleotide translocation catalyzed by phosphoenolpyruvate. These results indicate that although phosphoenoppyruvate is preferentially transported by the tricarboxylate carrier system, it may also be transported by the adenine nucleotide translocase. The inhibition of the adenine nucleotide and tricarboxylate carrier systems by atractyloside and long chain acyl CoA esters indicates a close functional interrelation-ship of these transport carriers in the inner mitochondrial membrane. Moreover, the potent inhibition of phosphoenolpyruvate, citrate, and adenine nucleotide transport by long chain acyl CoA's provides further evidence that these esters are natural effectors which participate in the regulation of gluconeogenesis, lipogenesis, and energy-linked respiration.  相似文献   

8.
Previous reports that ethacrynic acid and furosemide diminish mitochondrial P : O ratios and reduce (Na+ + K+)-ATPase activity suggested that these diuretics may inhibit mitochondrial phosphorylation reactions. This possibility was initially studied by determining the effects of ethacrynic acid and furosemide on [32P]ATP exchange activity of rat kidney mitochondria. Concentrations of both drugs at 10−4 M or greater, significantly inhibited [32P]ATP exchange. To investigate the mechanism of this inhibition, the effects of ethacrynic acid and furosemide on the ATPase activity of intact mitochondria and sonicated submitochondrial particles were determined. Both diuretics inhibited ATPase activity of intact mitochondria at 10−4 M. In contrast, ATPase of submitochondrial particles was significantly less susceptible to inhibition by the diuretics. These results suggested that ethacrynic acid and furosemide inhibit adenine nucleotide transport across the mitochondrial membrane. This was directly tested by determining the effects of the diuretics on the mitochondrial adenine nucleotide translocase. At 5 · 10−4 M, both ethacrynic acid and furosemide significantly inhibited adenine nucleotide transport. These findings suggest that ethacrynic acid and furosemide may diminish renal tubular solute reabsorption by direct inhibition of adenine nucleotide transport across the mitochondrial inner membrane.  相似文献   

9.
Adenine nucleotide uptake was found to be lower in mitochondria from hepatoma 7777, 7800, and 9618A than in the host livers. Moreover, in the fast-growing hepatoma 7777 the sensitivity of the adenine nucleotide translocase to inhibition by carboxyatractylate and bongkrekic acid was considerably decreased. Purification of the ADP/ATP carrier from hepatoma 7777 mitochondria and its reconstitution into an artificial liposome system reversed the abnormal kinetics in that the adenine nucleotide uptake and response to inhibitors were identical in proteoliposome preparations from host liver and tumor mitochondria. Analysis of the lipids of the hepatoma inner mitochondrial membrane indicated considerable differences from normal in the levels of phospholipids and cholesterol. Most striking was the increase in cholesterol and sphingomyelin of the hepatoma 7777 inner membrane. An artificial liposome system containing cholesterol in addition to the standard phospholipids could produce alterations in kinetics of the purified ADP/ATP carrier from heart mitochondria similar to those seen in the hepatoma 7777. In general, these results support the suggestion that alterations in the lipid environment of the inner mitochondrial membrane rather than intrinsic changes in the carrier protein itself produce the aberrant observations of adenine nucleotide translocase activity in hepatoma mitochondria.  相似文献   

10.
Upon the addition of inorganic phosphate, isolated rat-heart mitochondria released endogenous adenine nucleotides. To elucidate the mechanism of this phosphate-induced efflux, we evaluated the relative roles of three inner mitochondrial membrane carriers: the adenine nucleotide translocase, the phosphate/hydroxyl exchanger, and the dicarboxylate carrier. Atractyloside (a specific inhibitor of the adenine nucleotide translocase) prevented this efflux, but did not inhibit mitochondrial swelling. Inhibitors of the phosphate/hydroxyl exchanger (200 microM n-ethylmaleimide and 10 microM mersalyl) did not inhibit phosphate-induced efflux. 200 microM mersalyl (which inhibited both the phosphate/hydroxyl exchanger and the dicarboxylate carrier) inhibited the rate of efflux approx. 65% Phenylsuccinate and 2-n-butylmalonate (inhibitors of the dicarboxylate carrier) partially inhibited phosphate-induced efflux and adenine nucleotide translocase activity. Mersalyl (200 microM) had no effect on adenine nucleotide translocase activity. Partial inhibition of the adenine nucleotide translocase by phenylsuccinate and butylmalonate could not explain the extent of inhibition of phosphate-efflux by these agents. Moreover, the rates of adenine nucleotide efflux in the presence of phenylsuccinate, butylmalonate, or mersalyl correlated well with the ability of these agents to inhibit succinate-supported respiration. We conclude that phosphate-induced efflux of adenine nucleotides from rat heart mitochondria occurs over the adenine nucleotide translocase, and that the site of action of the phosphate is not the phosphate/hydroxyl exchanger, but is likely the dicarboxylate carrier.  相似文献   

11.
The adenine nucleotide translocase was purified from bovine heart mitochondria and incorporated into membranes of phospholipid liposomes. The rate of transport of the adenine nucleotides was competitively inhibited by oleoyl coenzyme A with an approximate Ki of 1.0 microM. Significant inhibition was limited to those fatty acyl coenzyme A esters which are carnitine dependent for their oxidation in isolated mitochondria. Octanoyl coenzyme A was almost completely inactive as was palmitic acid and palmitoyl carnitine. By comparing the inhibitory characteristics of carboxyatractylate and bongkrekic acid with those of oleoyl-CoA, it was determined that the fatty acyl-CoA esters could produce inhibition whether the carrier was inserted into the liposome in either the conventional (65%) or reverse (30%) orientation. The results demonstrate that the interaction of long chain fatty acyl-CoA esters with the ADP/ATP carrier in a purified reconstituted system mimics their effects with isolated mitochondria and inverted submitochondrial particles. In general, these findings are consistent with the role of acyl-CoA esters acting as natural ligands and biological effectors of the translocator.  相似文献   

12.
The respiratory capacities of hepatocytes, derived from hypothyroid, euthyroid and hyperthyroid rats, have been compared by measuring rates of oxygen uptake and by titrating components of the respiratory chain with specific inhibitors. Thyroid hormone increased the maximal rate of substrate-stimulated respiration and also increased the degree of ionophore-stimulated oxygen uptake. In titration experiments, similar concentrations of oligomycin or antimycin were required for maximal inhibition of respiration regardless of thyroid state, suggesting that the changes in respiratory capacity were not the result of variation in the amounts of ATP synthase or cytochrome b. However, less rotenone was required for maximal inhibition of respiration in the hypothyroid state than in cells from euthyroid or hyperthyroid rats, implying that hepatocytes from hypothyroid animals contain less NADH dehydrogenase. The concentration of carboxyatractyloside necessary for maximal inhibition of respiration was 100 microM in hepatocytes from hypothyroid rats, but 200 microM and 300 microM in hepatocytes from euthyroid and hyperthyroid rats, respectively, indicating a possible correlation between levels of thyroid hormone and the amount or activity of adenine nucleotide translocase. The increased capacity for coupled respiration in response to thyroid hormone is not associated with an increase in the components of the electron transport chain or ATP synthase, but correlates with an increased activity of adenine nucleotide translocase.  相似文献   

13.
Mitochondrial respiration was studied as a function of the total adenine nucleotide content of rat liver mitochondria. The adenine nucleotide content was varied by treating isolated mitochondria with pyrophosphate or by incubating pyrophosphate-treated mitochondria with ATP. Mitochondria with at least 4 nmol adenine nucleotides/mg protein maintained at least 80% of the State 3 activity of control mitochondria, which had approximately 10 nmol/mg protein. However, State 3 decreased rapidly once the adenine nucleotide content fell below 4 nmol/mg protein. Between 2 and 4 nmol adenine nucleotides/mg, State 3 was not limited by the maximal capacity of electron flow as measured by the uncoupled respiration. However, at very low adenine nucleotide levels (<2 nmol/mg), the uncoupled rates of respiration were markedly depressed. State 4 was not affected by changes in the mitochondrial adenine nucleotide content. Adenine translocase activity varied in almost direct correlation with changes in the adenine nucleotide content. Therefore, adenine translocase activity was more sensitive than State 3 to changes in total adenine nucleotides over the range of 4 to 10 nmol/mg protein. The results suggest that (i) State 3 is dependent on the level of intramitochondrial adenine nucleotides, particularly in the range below 4 nmol/mg protein, (ii) adenine translocase activity is not rate-limiting for oxidative phosphorylation in mitochondria with the normal complement of adenine nucleotides, however, at low adenine nucleotide levels, depressed State 3 rates may be explained in part by the low rate of ADP translocation, and (iii) a mechanism of net ATP uptake exists in mitochondria with low internal adenine nucleotides.  相似文献   

14.
Uptake of folate by L1210 cells in mediated by a transport system whose primary substrate is adenine. This conclusion is based upon the following evidence: (a) Folate uptake is inhibited competitively by adenine; (b) The Kt for folate transport (430 μM) is comparable to the Ki (450 μM) for folate inhibition of adenine transport; (c) The Kt for adenine transport (21 μM) agrees with the Ki (17 μM) for inhibition of folate transport by adenine; (d) The adenine analogs, 1-methyl-3-isobutylxanthine and 6-mercapto-purine, each inhibit folate and adenine transport to a comparable degree; and (e) Rates of folate and adenine uptake vary in parallel fashion during growth of L1210 cells.  相似文献   

15.
The atractyloside-insensitive accumulation of adenine nucleotides by rat liver mitochondria (as opposed to the exchange-diffusion catalysed by the adenine nucleotide translocase) has been measured by using the luciferin/luciferase assay as well as by measuring [14C]ATP uptake. In foetal rat liver mitochondria ATP is accumulated more rapidly than ADP, whereas AMP is not taken up. The uptake of ATP occurs against a concentration gradient, and the rate of ATP uptake is greater in foetal than in adult rat liver mitochondria. The accumulated [14C]ATP is shown to be present within the mitochondrial matrix space and is freely available to the adenine nucleotide translocase for exchange with ATP present in the external medium. The uptake is specific for ATP and ADP and is not inhibited by adenosine 5'-[beta gamma-imido] triphosphate, GTP, CTP, cyclic AMP or Pi, whereas dATP and AMP do inhibit ATP accumulation. The ATP accumulation is also inhibited by carbonyl cyanide m-chlorophenylhydrazone, KCN and mersalyl but is insensitive to atractyloside. The ATP uptake is concentration-dependent and exhibits Michaelis-Menten kinetics. The divalent cations Mg2+ and Ca2+ greatly enhance ATP accumulation, and the presence of hexokinase inhibits the uptake of ATP by foetal rat liver mitochondria. These latter effects provide an explanation for the low adenine nucleotide content of foetal rat liver mitochondria and the rapid increase that occurs in the mitochondrial adenine nucleotide concentration in vivo immediately after birth.  相似文献   

16.
Mitochondria from the embryos of brine shrimp (Artemia franciscana) do not undergo Ca(2+)-induced permeability transition in the presence of a profound Ca(2+) uptake capacity. Furthermore, this crustacean is the only organism known to exhibit bongkrekate-insensitive mitochondrial adenine nucleotide exchange, prompting the conjecture that refractoriness to bongkrekate and absence of Ca(2+)-induced permeability transition are somehow related phenomena. Here we report that mitochondria isolated from two other crustaceans, brown shrimp (Crangon crangon) and common prawn (Palaemon serratus) exhibited bongkrekate-sensitive mitochondrial adenine nucleotide transport, but lacked a Ca(2+)-induced permeability transition. Ca(2+) uptake capacity was robust in the absence of adenine nucleotides in both crustaceans, unaffected by either bongkrekate or cyclosporin A. Transmission electron microscopy images of Ca(2+)-loaded mitochondria showed needle-like formations of electron-dense material strikingly similar to those observed in mitochondria from the hepatopancreas of blue crab (Callinectes sapidus) and the embryos of Artemia franciscana. Alignment analysis of the partial coding sequences of the adenine nucleotide translocase (ANT) expressed in Crangon crangon and Palaemon serratus versus the complete sequence expressed in Artemia franciscana reappraised the possibility of the 208-214 amino acid region for conferring sensitivity to bongkrekate. However, our findings suggest that the ability to undergo Ca(2+)-induced mitochondrial permeability transition and the sensitivity of adenine nucleotide translocase to bongkrekate are not necessarily related phenomena.  相似文献   

17.
Bongkrekic acid and atractyloside, inhibitors of adenine nucleotide translocase, do not inhibit Ca2+ uptake and H+ production by pig heart mitochondria. However, bongkrekic acid, but not atractyloside, inhibits dinitrophenol-induced Ca2+ efflux and H+ uptake. Conversely, ruthenium red blocks Ca2+ uptake and H+ production but does not prevent dinitrophenol-induced Ca2+ efflux and H+ uptake by mitochondria. These results suggest that mitochondrial Ca2+ uptake and release exist as two independent pathways. The efflux of Ca2+ from mitochondria is mediated by a bongkrekic acid sensitive component which is apparently not identical to the ruthenium red sensitive Ca2+ uptake carrier.  相似文献   

18.
In newborn rat liver, the adenine nucleotide content (ATP + ADP + AMP) of mitochondria increases severalfold within 2 to 3 h of birth. The net increase in mitochondrial adenines suggests a novel mechanism by which mitochondria are able to accumulate adenine nucleotides from the cytosol (J. R. Aprille and G. K. Asimakis, 1980, Arch. Biochem. Biophys.201, 564.). This was investigated further in vitro. Isolated newborn liver mitochondria incubated with 1 mM ATP for 10 min at 30 °C doubled their adenine nucleotide content with effects on respiratory functions similar to those observed in vivo: State 3 respiration and adenine translocase activity increased, but uncoupled respiration was unchanged. The mechanism for net uptake of adenine nucleotides was found to be specific for ATP or ADP, but not AMP. Uptake was concentration dependent and saturable. The apparent Km′s for ATP and ADP were 0.85 ± 0.27 mM and 0.41 ± 0.20 mM, respectively, measured by net uptake of [14C]ATP or [14C]ADP. The specific activities of net ATP and ADP uptake averaged 0.332 ± 0.062 and 0.103 ± 0.002 nmol/min/mg protein, respectively. ADP was a competitive inhibitor of net ATP uptake. If Pi was omitted from the incubations, net uptake of ATP or ADP was reduced by 51%. Either mersalyl or N-ethylmaleimide severely inhibited the accumulation of adenine nucleotides. Net ATP uptake was stoichiometrically dependent on MgCl2, suggesting that Mg2+ is accumulated along with ATP (or ADP). Uptake was energy dependent as indicated by the following results: Net AdN uptake (especially ADP uptake) was stimulated by the addition of an oxidizable substrate (glutamate) and inhibited by FCCP (an uncoupler). Antimycin A had no effect on net ATP uptake but inhibited net ADP uptake, suggesting that ATP was able to serve as an energy source for its own accumulation. If carboxyatractyloside was added to inhibit the exchange translocase, thereby preventing rapid access of exogenous ATP to the matrix, net ATP uptake was inhibited; carboxyatractyloside had no effect on ADP uptake. It was concluded that the net uptake of adenine nucleotides from the extramitochondrial space occurs by a specific transport process distinct from the classic adenine nucleotide exchange translocase. The accumulation of adenine nucleotides may regulate matrix reactions which are allosterically affected by adenines or which require adenines as a substrate.  相似文献   

19.
I.T. Mak  E. Shrago  C.E. Elson 《BBA》1983,722(2):302-309
The decrease in respiration rate following thyroidectomy is preceded by changes in the lipid composition of the mitochondrial membrane (Hoch, F.L., Subramanian, C., Dhopeshwarkar, G.A. and Mead, J.F. (1981) Lipids 16, 328–334) and in concert, changes in the kinetic parameters of the adenine nucleotide translocase (Mak, I.T., Shrago, E. and Elson, C.E. (1981) Fed. Proc. 40, 398). To demonstrate that physiological adaptation also involves this sequence of events, rats were housed at 8°C for 3–4 weeks. Cold adaptation resulted in a modest (5%) increase in the unsaturation index for the mitochondrial fatty acids comprised of a significant increase in arachidonic acid and a reciprocal decrease in linoleic acid. Phospholipid analysis indicated that cold adaptation increased the mitochondrial phosphatidylethanolamine and reciprocally decreased the phosphatidylcholine content. Concomitantly, cold adaptation resulted in 25–30% increases in rat liver mitochondrial respiratory activities without changing the respiratory control or ADP/O ratios. The kinetic parameters of the adenine nucleotide translocase were determined by the back-exchange method (Pfaff, E. and Klingenberg, M. (1968) Eur. J. Biochem. 6, 66–79). At 0–4 and 10°C, the Vmax and Km of the cold-adapted rat liver adenine nucleotide translocase were not distinguishable from the control values. The Ki values determined by Dixon plot studies for atractylate and palmitoyl-CoA were also comparable between the two groups. However, at 25 and 37°C, cold-adapted rat liver adenine nucleotide translocase exhibited a 20% increase in Vmax and a 20% decrease in Km for external ADP. The results suggest that one adaption to a cold environment involves hormone-mediated changes in the lipid composition in the mitochondrial membranes which in turn modulate the adenine nucleotide translocase and subsequent respiratory activities.  相似文献   

20.
1. The mechanism of adenine nucleotide translocation in mitochondria isolated from rat liver was further examined by using the local anaesthetics procaine, butacaine, nupercaine and tetracaine as perturbators of lipid-protein interactions. Each of these compounds inhibited translocation of ADP and of ATP; butacaine was the most effective with 50% inhibition occurring at 30mum for 200mum-ATP and at 10mum for 200mum-ADP. The degree of inhibition by butacaine of both adenine nucleotides was dependent on the concentration of adenine nucleotide present; with low concentrations of adenine nucleotide, low concentrations of butacaine-stimulated translocation, but at high concentrations (greater than 50mum) low concentrations of butacaine inhibited translocation. Butacaine increased the affinity of the translocase for ATP to a value which approached that of ADP. 2. Higher concentrations of nupercaine and of tetracaine were required to inhibit translocation of both nucleotides; 50% inhibition of ATP translocation occurred at concentrations of 0.5mm and 0.8mm of these compounds respectively. The pattern of inhibition of ADP translocation by nupercaine and tetracaine was more complex than that of ATP; at very low concentrations (less than 250mum) inhibition ensued, followed by a return to almost original rates at 1mm. At higher concentrations inhibition of ADP translocation resulted. 3. That portion of ATP translocation stimulated by Ca(2+) was preferentially inhibited by each of the local anaesthetics tested. In contrast, inhibition by the anaesthetics of ADP translocation was prevented by low concentrations of Ca(2+). 4. The data provide further support for our hypothesis that lipid-protein interactions are important determinants in the activity of the adenine nucleotide translocase in mitochondria.  相似文献   

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