Effects of 5,5'-diphenyl-2-thiohydantoin on respiration and oxidative phosphorylation of rat liver mitochondria.

5,5'-Diphenyl-2-thiohydantoin (DPTH) administered in vitro, inhibited state 3 oxidation, stimulated state 4 oxidation and decreased ADP:O ratio when 3-hydroxybutyrate and succinate were used as substrates. Considerably lower DPTH concentrations were required for the inhibition of 3-hydroxybutyrate oxidation (50% inhibition occurred at approximately 0.17 mumoles DPTH/mg protein) than were needed for inhibition of succinate oxidation (50% inhibition occurred at about 0.62 mumoles DPTH/mg protein). DPTH showed no inhibitory effects when ascorbate plus tetramethylphenylenediamine (TMPD) served as the substrate. The inhibition of state 3 respiration was not reversed by 2,4-dinitrophenol (DNP), although there was a slight increase in the DNP rate:state 3 rate suggesting the presence of a weak DPTH inhibotory site located within the Site I energy transport chain. Uncoupling, in the presence of DPTH, was observed with all substrates. In experiments utilizing sonicated mitochondria, DPTH inhibited NADH-linked oxidation, but did not inhibit succinate or ascorbate plus TMPD oxidation. The effects of DPTH were reversed by dilution and by addition of albumin. DPTH concentrations which produced inhibition of state 3 respiration in vitro were reached, in vivo, in the livers of rats receiving a single oral dose of 40 mg/kg of DPTH.     

The phosphorus/oxygen ratio of mitochondrial oxidative phosphorylation.

The transport of ATP out of mitochondria and uptake of ADP and Pi into the matrix are coupled to the uptake of one proton (Klingenberg, M., and Rottenberg, H. (1977) Eur. J. Biochem. 73, 125--130). According to the chemiosmotic hypothesis of oxidative phosphorylation this coupling of nucleotide and Pi transport to proton transport implies that the P/O ratio for the synthesis and transport of ATP to the external medium is less than the P/O ratio for the synthesis of ATP inside mitochondria. A survey of previous determinations of the P/O ratio of intact mitochondria showed little convincing evidence in support of the currently accepted values of 3 with NADH-linked substrates and 2 with succinate. We have measured P/O ratios in rat liver mitochondria by the ADP pulse method and by 32 Pi esterification, measuring oxygen uptake with an oxygen electrode, and find values close to 2 with beta-hydroxybutyrate as substrate and 1.3 with succinate as substrate in the presence of rotenone to inhibit NADH oxidation. These values were largely independent of pH, temperature, Mg2+ ion concentration, Pi concentration, ADP pulse size, or amount of mitochondria used. We suggest that these are the true values of the P/O ratio for ATP synthesis and transport by mitochondria, and that previously reported higher values resulted from errors in the determination of oxygen uptake and the use of substrates which lead to ATP synthesis by succinate thiokinase.     

Effects of riboflavin deficiency on oxidative phosphorylation, flavin enzymes and coenzymes in rat liver.

Riboflavin deficiency in rats caused a decrease in the activities of hepatic succinate dehydrogenase (50 %), L-α-glycerophosphate dehydrogenase (50 %) and xanthine oxidase (70 %). It also reduced to 50 % the rate of mitochondrial oxidation of succinate, β-hydroxybutyrate, α-ketoglutarate, glutamate, pyruvate and malate without changing ADP : O ratios, thus showing that riboflavin deficiency interferes with electron transport along the respiratory chain without noticably affecting phosphorylation.     

P/O ratios of mitochondrial oxidative phosphorylation

Mitochondrial mechanistic P/O ratios are still in question. The major studies since 1937 are summarized and various systematic errors are discussed. Values of about 2.5 with NADH-linked substrates and 1.5 with succinate are consistent with most reports after apparent contradictions are explained. Variability of coupling may occur under some conditions but is generally not significant. The fractional values result from the coupling ratios of proton transport. An additional revision of P/O ratios may be required because of a report of the structure of ATP synthase (D. Stock, A.G.W. Leslie, J.E. Walker, Science 286 (1999) 1700-1705) which suggests that the H+/ATP ratio is 10/3, rather than 3, consistent with P/O ratios of 2.3 with NADH and 1.4 with succinate, values that are also possible.     

An assessment of the role of proton leaks in the mechanistic stoichiometry of oxidative phosphorylation.

Rat liver mitochondria were incubated in the presence of varying concentrations of ATP, followed by ADP to initiate phosphorylation. Analysis of phosphorylation to oxygen ratios (P/O) was carried out with varied initial phosphorylation potentials (or ATP/ADP ratios). Rates of phosphorylation and respiration and magnitude of membrane potential (delta psi) were measured. The results are discussed in the framework of P/total O and P/"extra" O ratios in determination of the mechanistic P/O ratio. It is concluded that the former underestimates, and the latter overestimates the mechanistic P/O ratio.     

Inhibition of oxidative phosphorylation by organotin thiocarbamates

A series of triphenyl-, tricyclohexyl- and tribenzyltin compounds have been synthesized and examined as inhibitors of mitochondrial oxidative phosphorylation. All compounds tested inhibit oxidative phosphorylation linked to succinate oxidation by potato tuber mitochondria. All of the organotin compounds inhibit ADP-stimulated O2 uptake linked to succinate oxidation with concentrations for 50% inhibition in the range 2-50 microM. This inhibition is not due to inhibition of electron transport from succinate to O2 per se: none of the organotin compounds at 50 microM substantially inhibit the rate of succinate oxidation in the presence of 2,4-dinitrophenol. Representative organotin compounds at 0.5-50 microM do not act as uncouplers of succinate oxidation. It is concluded that the organotin compounds act as energy transfer inhibitors to inhibit oxidative phosphorylation in potato tuber mitochondria. A similar mode of action of representative organotin compounds was found with rat liver mitochondria. These organotin compounds inhibit a hydrophobic Ca2+-dependent plant protein kinase in the absence but not in the presence of thiols.     

The ATP-to-oxygen stoichiometries of oxidative phosphorylation by rat liver mitochondria. An analysis of ADP-induced oxygen jumps by linear nonequilibrium thermodynamics

Uncertainty exists as to the proton stoichiometries of mitochondrial oxidative phosphorylation and consequently as to the ATP stoichiometries. In rat liver mitochondria, ADP/O ratios were determined from the total and extra oxygen consumed during ADP-stimulated respiration under conditions of quantitative conversion of ADP to ATP. For succinate, glutamate plus malate, 3-hydroxybutyrate, and 2-oxoglutarate, respectively, ADP/total O was 1.71, 2.71, 2.61, and 3.45. ADP/extra O was 2.03, 3.04, 3.23, and 4.15. The results were interpreted in terms of linear nonequilibrium thermodynamics. It was shown that ADP/extra O = Z/q where Z is the phenomenological stoichiometry and q is the degree of coupling. q was determined from the dependence of respiratory rate on delta Gp, the phosphorylation potential, and was about 0.98 for all substrates. The results were consistent with ideal ATP/O stoichiometries of 2 for succinate, 3 for glutamate plus malate, 3 or 3 1/4 for 3-hydroxybutyrate, and 4 for 2-oxoglutarate. Taking into account the oxidation-reduction free-energy changes measured across Sites 1 + 2 at static head (J.J. Lemasters, R. Grunwald, and R.K. Emaus J. Biol. Chem. 259, 3058-3063), an ideal ATP/O stoichiometry of 3 1/4 for 3-hydroxybutyrate is proposed. The lower ATP/O for glutamate plus malate is then accounted for by proton translocation linked to glutamate/aspartate exchange. The data suggest a new 13-proton scheme of chemiosmotic coupling in which proton stoichiometries are 3 for the F1Fo-ATPase, 1 for the exchange of ATP for ADP and Pi, and 5, 4, and 4 for Sites 1, 2, and 3.     

NADH-Linked oxidative phosphorylation inNitrobacter agilis

A particulate cell-free fraction (144,000-X-g pellet) fromNitrobacter agilis catalyzes the acrobic or anaerobic oxidation of NADH. Phosphorylation coupled to the aerobic oxidation of NADH yields P/O ratios of 1.1. The net formation of ATP coupled to the anaerobic oxidation of NADH by nitrate yields P/NO₃ ratios of 0.7. Phosphate esterification is uncoupled by carbonylcyanide-m-chlorophenyl-hydrozone and is sensitive to inhibitors of the electron transport system.     

The effect of temperature and anoxia of kidney on the subsequent oxidative phosphorylation of mitochondria

1. Kidneys were kept anoxic at 4 degrees , 20 degrees and 38 degrees . Mitochondria were then isolated and their oxidative phosphorylation and respiration were determined. 2. Under all conditions the rate of phosphate esterification was affected to a greater extent, or earlier, than oxygen consumption. 3. Glutamate and succinate were used as substrates. The depression of P/O ratio was greater for glutamate at 4 degrees , and for succinate at 20 degrees . 4. Anoxia abolished the inhibiting effect of fluoride on respiration. 5. Phosphate esterification, after anoxia, was higher in the presence of fluoride than its absence, whereas in control preparations they were the same. 6. The decrease in P/O ratio did not appear to be due to activation of adenosine triphosphatase, as activities of both Mg(2+)-and dinitrophenol-activated adenosine triphosphatases were decreased after anoxia.     

Oxidative phosphorylation in mitochondria from different fiber types of chicken muscles

Isolated mitochondria from different types of muscle fibers from chickens 3 to 5 weeks were studied to evaluate the comparative oxidation of various substrates. Pectoralis (alphaW fibers), lateral adductor (betaR fibers), and medial adductor (alphaR fibers) were the muscles used. Oxygen consumption rates, RCR, and ADP/O ratios were measured to study mitochondrial function. Mitochondria from pectoralis muscle utilized pyruvate, succinate, L-glutamate, alpha-glycerophosphate, and beta-hydroxybutyrate. Mitochondria from the other two muscle types utilized all of those substrates except alpha-glycerophosphate. In each muscle type utilization of NADH was minimum and was not coupled with phosphorylation of ADP. Thus, in alphaW muscles oxidation of alpha-glycerophosphate may play an important role in transport of cytoplasmic NADH to the mitochondrial respiratory chain. In alphaR and betaR muscles "shuttle" systems other than alpha-glycerophosphate oxidation, e.g., beta-hydroxybutyrate, may perform that important role.     

Uncoupling effect of anacardic acids from cashew nut shell oil on oxidative phosphorylation of rat liver mitochondria

Anacardic acids are one of natural products found in not only the cashew nut shell oil but also the nut and fruit juice. The present study was conducted to investigate the uncoupling effect of anacardic acids on oxidative phosphorylation of rat liver mitochondria using succinate (plus rotenone) as a substrate. Four anacardic acids with C15:0, C15:1, C15:2 or C15:3 as an alkyl side chain exhibited uncoupling effects similar to the classical uncoupler, 2,4-dinitrophenol on ADP/O ratio, state 4 and respiratory control ratio (RCR). Anacardic acid with C15:1 side chain was most effective for uncoupling of these compounds. Salicylic acid, which has no alkyl side chain, exhibited a very weak uncoupling effect on oxidative phosphorylation. When the carboxyl group in anacardic acids was lost converting them to the corresponding cardanols, uncoupling activity dramatically decreased regardless of the number of double bonds in the long alkyl chain. These results suggest that the C15 alkyl side chain as well as the carboxyl group may play an important role in assisting the uncoupling activity of anacardic acids in liver mitochondria of animals. This study provides the first evidence of an uncoupling effect of anacardic acids on liver mitochondria     

The effect of hypoxia on oxidative phosphorylation and lipid peroxidation in rat liver mitochondria upon lung inflammation

Hypoxic trainings of rats (maintenance in the test chamber at the "altitude" 4 km above the sea level for 7 hours a day for two weeks) prevent pneumonia-induced activation of peroxidation for lipids of the liver mitochondria. This increases the phosphorylating respiration rate when lipemic serum is used as an oxidation substrate (not succinate). In these experiments the efficiency of oxidative phosphorylation (delta ADP/delta O) when either succinate and glutamate or glutamate and malate have been oxidated corresponded to the values typical of intact animals and was higher when lipemic serum was used. It is supposed that rearrangement of energy reactions of mitochondria is connected with intensification of utilization of lipids and conjugation between their oxidation and phosphorylation. This rearrangement is apparently aimed to prevent the energy deficiency in the organism which arises in patients with pneumonia.     

Responses of Isolated Plant Mitochondria to Photosynthesis Inhibiting Acylanilides

During experiments to elucidate the mode of action of photosynthesis inhibiting acylanilide type herbicides, the effects of various acylanilides on respiration and oxidative phosphorylation of isolated plant mitochondria were studied. The results showed that some acylanilides acted as uncouplers of oxidative phosphorylation: 1) Some stimulated the ADP-limited state 4 respiration of isolated mitochondria depriving them of their respiratory control ability during succinate oxidation. 2) Those which stimulated state 4 respiration interfered with oxidative phosphorylation to degenerate the P/O ratio.

The following relationships between chemical structure of acylanilides and their biological activities were demonstrated: 3) Among various ring-chlorinated propionanilides, the activity of 3′,4′-DCPA was especially prominent. 4) Almost all the side chain-substituted 3′,4′-dichloroacylanilides tested were effective. 5) Both chlorination of the 3 and 4 positions of the aniline moiety and acylanilide bonding were simultaneously required for an acylanilide to produce uncoupling activity. 6) DCMU was less effective than was 3′,4′-DCPA, both in stimulating state 4 and in degenerating the P/O ratio.     

Oxidative phosphorylation in Micrococcus denitrificans

P/O ratios were measured in membrane particles obtained from cells of Micrococcus denitrificans, while growing on different carbon sources. The membrane particles obtained from cells growing actively on glucose, succinate, ethanol and propanol as the carbon and energy sources catalyzed oxidative phosphorylation and yielded respective P/O ratios of 1.4, 1.2, 0.8, and 0.5 with NADH, and 0.8, 0.6, 0.6, and 0.5 with succinate as the electron donors. Not such a difference in P/O ratio is observed in intact resting cells grown with different carbon sources. It is concluded that the influence of the carbon source is probably directed towards the efficiency of oxidative phosphorylation in membrane particles and not in the growing cells.For the aerobic carbon source-limited chemostat cultures the following maximum growth yields were determined: 40.2 and 34.2 for succinate and oxgen, 41.7 and 36.5 for malate and oxygen, 81.4 and 39.4 for mannitol and oxygen, and 77.8 and 43.4 for gluconate and oxygen respectively. With a mathematical model (de K waadsteniet et al., in press) the P/O ratio was valued at 1.4–1.7. Y _ATP at =0.2 was valued at 8.7–10.9; Y _ATP ^max at 9.6–13.2 and m _e at 0.6–4.5 for the most precise experiment (gluconate-limited). The calculation of these growth parameters has been discussed.     

Oxidative phosphorylation properties of mitochondria isolated from transplanted hepatoma

Mitochondria were isolated from Morris hepatomas with rapid (types 3683, 7777, and 3924A) and intermediate (types 5123D and 7800) growth rates, using proteolytic digestion of minced tumor tissue to release the particles. Mitochondria isolated by the same procedure from rat liver were employed as controls. All the hepatoma mitochondria were capable of coupled respiration with normal phosphorylation yields (ADP/O) and respiratory control ratios ranging from 2 to considerably more than 10. Particles from hepatomas 7777 and 7800 exhibited properties closest to liver mitochondria, while those from hepatomas 3683 and 3924A showed the greatest difference. All the hepatoma mitochondria were capable of oxidizing succinate, 3-hydroxybutyrate and monoamines. However, the oxidation rates of the latter two substrates by mitochondria from hepatomas 3683 and 3924A were only a fraction of the control rates. These differences appeared to be due, at least in part, to the structural instability of the isolated hepatoma mitochondria. In contrast to the reports of others, all hepatoma mitochondria exhibited considerable stimulation of ATPase activity by uncouplers. Maximal stimulation of ATPase activity by representatives of three classes of uncouplers was in all instances comparable to the values obtained for rat liver mitochondria.     

Oxidative phosphorylation properties of mitochondria isolated from transplanted hepatoma.

Mitochondria were isolated from Morris hepatomas with rapid (types 3683, 7777, and 3924A) and intermediate (types 5123D and 7800) growth rates, using proteolytic digestion of minced tumor tissue to release the particles. Mitochondria isolated by the same procedure from rat liver were employed as controls. All the hepatoma mitochondria were capable of coupled respiration with normal phosphorylation yields (ADP/O) and respiratory control ratios ranging from 2 to considerably more than 10. Particles from hepatomas 7777 and 7800 exhibited properties closest to liver mitochondria, while those from hepatomas 3683 and 3924A showed the greatest difference. All the hepatoma mitochondria were capable of oxidizing succinate, 3-hydroxybutyrate and monoamines. However, the oxidation rates of the latter two substrates by mitochondria from hepatomas 3683 and 3924A were only a fraction of the control rates. These differences appeared to be due, at least in part, to the structural instability of the isolated hepatoma mitochondria. In contrast to the reports of others, all hepatoma mitochondria exhibited considerable stimulation of ATPase activity by uncouplers. Maximal stimulation of ATPase activity by representatives of three classes of uncouplers was in all instances comparable to the values obtained for rat liver mitochondria.     

Photophosphorylation and oxidative phosphorylation in intact cells and chromatophores of an aerobic photosynthetic bacterium, Erythrobacter sp. strain OCh114.

Light-induced ATP synthesis was studied in intact cells and chromatophores of Erythrobacter sp. strain OCh114. ATP synthesis was measured by both the pH method and the luciferin-luciferase luminescence method. The rate of ATP synthesis was moderate (a typical value of 0.65 mol of ATP per mol of bacteriochlorophyll per min), and synthesis was inhibited by antimycin A. ATP was synthesized under illumination only under aerobic conditions and not under anaerobic conditions. This characteristic was similar to that of other light-induced energy transduction processes in this bacterial species, such as oxidation of reaction center, oxidation of cytochrome c551, and translocation of H+, which were not observed under anaerobic conditions. This phenomenon was reconciled with the fact that the Erythrobacter sp. could not grow anaerobically even in the light. The characteristics of oxidative phosphorylation and ATP hydrolysis were also investigated. The respiratory ratio of chromatophores was 2.3. Typical rates of oxidative phosphorylation by NADH and by succinate were 2.9 mol of ATP per mol of bacteriochlorophyll per min (P/O = 0.22) and 1.1 mol of ATP per mol of bacteriochlorophyll per min (P/O = 0.19), respectively. A typical rate of ATP hydrolysis was 0.25 mol of ATP per mol of bacteriochlorophyll per min in chromatophores. ATPase and adenylate kinase are also involved in the metabolism of adenine nucleotides in this bacterium.     

Steady-state H+/O stoichiometry of liver mitochondria.

We have measured the H+/O stoichiometry of rat liver mitochondria respiring in a steady-state, using a novel method. This involves measuring the initial rate of H+ back-flow into mitochondria after respiratory inhibition, with the assumption that this is equal to the steady-state H+-ejection rate. Division by the steady-state O2-consumption rate yields the H+/O ratio. The H+/O values obtained were: 8.3 +/- 1.0 (mean +/- S.E.M.) for 3-hydroxybutyrate: 8.2 +/- 0.7 for glutamate plus malate; 6.0 +/- 0.2 for succinate; 4.1 +/- 0.3 for ascorbate/tetramethylphenylenediamine and 3.0 +/- 0.1 for ascorbate/ferrocyanide. These values correspond to H+/O stoichiometries for electron flow to oxygen from NAD+-linked substrates, succinate and cytochrome c of 8, 6 and 2 (charge/O ratio = 4) respectively.     

The effect of low concentrations of sodium nitrites and nitrates on respiration and oxidative phosphorylation in rat liver mitochondria]

Nitrite incubation in mitochondria and nitrate intoxication of rats have been studied for their effect on aerobic energetic processes in the liver. Sodium nitrite in concentration of 2 mg/l causes an inhibition of ADP-stimulated respiration and provides uncoupling processes of oxidative phosphorylation and respiration in mitochondria, when adding succinate as a substrate. Low doses of nitrate in vivo promote oxygen economization in mitochondria. Intoxication of rats with nitrate in a dose of 50 mg/l for 30 days induces a decrease of the respiration rate after ADP-phosphorylation and an increase of the coefficient of oxidative phosphorylation efficiency (ADP/O). Intraperitoneal administration of adrenalin in a dose of 25 micrograms/100 g to rats after 30-day nitrate intoxication in a concentration of 10 mg/l induces no typical increase of ADP-stimulated respiration and rate of oxidative phosphorylation and succinate oxidation.     

Oxidative phosphorylation and effects of aerobic conditions on Rhodopseudomonas viridis

Particles prepared from photosynthetically grown Rhodopseudomonas viridis, which has previously been described as an obligate photo-organotroph, catalyse oxidative phosphorylation. The P:O ratio is 0.3 with succinate as substrate and 0.45 with NADH. The reaction is inhibited by carbonyl cyanide p-trifluoromethoxyphenylhydrazone and oligomycin. Antimycin A or 2-heptyl-4-hydroxyquinoline-N-oxide inhibit succinate or NADH oxidation as well as oxidative phosphorylation.

After repeated transfers of cultures from agar plates, kept aerobic in the dark, cells of R. viridis were capable of limited exponential aerobic growth. In such cells no bacteriochlorophyll and very little carotenoid was detected; there was also a loss of the characteristic membrane structure found in photosynthetic cells. The K_m for oxygen of these cells was lowered from 0.35 (±0.09) to 0.007 (±0.002) mM and an additional cytochrome-like pigment was observed, with an absorption maximum at 560 nm at 77 °K. There was also an increased amount of a CO-binding pigment in aerobically grown cells.