1,720,966 research outputs found
The effects of the ergosteroid 7-oxo-dehydroepiandrosterone on mitochondrial membrane potential: possible relationship to thermogenesis
No full textAdministered 3 beta-hydroxyandrost-5-ene-7,17-dione (7-oxo-DHEA) is more effective than 3 beta-hydroxyandrost-5-en-7-one (DHEA) as an inducer of liver mitochondrial sn-glycerol-3-phosphate dehydrogenase and cytosolic malic enzyme in rats. Like DHEA, the 7-oxo metabolite enhances liver catalase, fatty acylCoA oxidase, cytosolic sn-glycerol-3-phosphate dehydrogenase, mitochondrial substrate oxidation rate, and the reconstructed sn-glycerol 3-phosphate shuttle. The mitochondrial adenine nucleotide carrier is diminished by thyroidectomy and is restored to normal activity by administering 7-oxo-DHEA. The relationship between respiratory rate and proton motive force across the mitochondrial membrane was measured in the nonphosphorylating state. When treated with increasing concentrations of respiratory inhibitors liver mitochondria from rats treated with 7-oxo-DHEA or thyroid hormones show a more rapid decline of membrane potential than do normal liver mitochondria. Thus 7-oxo-DHEA induces an increased proton leak or slip as has been reported for the thyroid hormone by M.D. Brand [(1990) Biochem. Biophys. Acta 1018, 128-133]. This process may contribute to the enhanced thermogenesis caused by ergosteroids as well as by thyroid hormones
Effect of cardiolipin on functional properties of isolated rat liver mitochondria
No full textThe specific involvement of cardiolipin in modulating and/or controlling the activity of a number of mitochondrial carriers, enzymes and receptors is well documented; however, comparatively less understood is its role for the integrated functions of intact mitochondria. The aim of the present research was to get a better insight into this problem by investigating the effect of in vitro addition of cardiolipin on the properties of isolated liver mitochondria. The results obtained show that cardiolipin induces extensive structural and functional perturbations at the level of the inner mitochondrial membrane. In fact, addition of cardiolipin to intact mitochondria causes a significant increase of proton leak associated with a parallel increase of respiratory rate in State 4. Concomitantly, a slight uncoupling of phosphorylation associated with a moderate increase in ATPase activity is observed. Furthermore, the pore-mediated membrane permeability to calcium is drastically modified, an effect that can be reversed by addition of cyclosporin
Use of flow cytometry as a tool to study mitochondrial membrane potential in isolated, living hepatocytes
No full textThe present paper describes the possibility of determination of mitochondrial membrane potential (Delta omega) in isolated hepatocytes making use of a Delta psi-sensitive dye, i.e., the lipophilic cationic probe 5,5'6,6'-tetrachloro-1,1'3,3 '-tetraethylbenzimidazolcarbocyanine iodide (JC-1) and of cytofluorimetry. The validity of the method was proved by treating hepatocytes with FCCP (decrease of Delta psi) and subsequent addition of 6-ketocholestanol (increase of Delta psi). The results indicate that the proposed method may be used in laboratory practice
Comparative studies of effects of dehydroepiandrosterone on rat and chicken liver
No full text1. An attempt to identify the cause of decrease of gain in body weight during dehydroepiandrosterone (DHEA) treatment was made comparing the effects of hormone treatment on chickens and rats. 2. Chickens treated with DHEA for 7-10 days do not change their weight gain with respect to controls although their mitochondrial respiration and peroxisomal catalase (index of peroxisomal mass) were increased. 3. Liver cytosolic malic enzyme and sn-glycerol-3-phosphate dehydrogenase were depressed in chickens treated with DHEA in comparison with activities in untreated controls. DHEA treatment did not increase the activity of mitochondrial sn-glycerol 3-phosphate dehydrogenase. 4. In contrast to rat liver cytosolic sn-glycerol-3-phosphate dehydrogenase this enzyme in chicken liver was inactive with NADPH
Interaction of carnitine with mitochondrial cardiolipin
No full textThe physiological role of L-carnitine is to determine the transport of acyl-CoA through the mitochondrial membrane. However, some observations may also suggest a direct effect of the molecule per se on the physical properties of the membrane, most probably at the level of the binding site. This possibility has been investigated by studying the influence of adriamycin, a drug that binds to cardiolipin, on the effect of carnitine on isolated rat liver mitochondria. It has been found that adriamycin almost abolishes the activating effect of carnitine on state 2 respiration. The effect and its inhibition is seen by using either the L-form of carnitine or the D-form or both. Cardiolipin removes the effect of adriamycin and restores the activation by carnitine. It is proposed that some effects of carnitine on mitochondrial properties may be the result of interaction of carnitine with cardiolipin at the membrane level
Decrease in mitochondrial energy couplings by thyroid hormones: a physiological effect rather than a pathological hyperthyroidism consequence
No full textThe effect of the in vivo thyroid status on mitochondrial membrane potential (Delta Psi(m)) in isolated rat hepatocytes was studies by means of a cytofluorimetric technique and the Delta Psi(m)-specific probe JC-1. It is shown that the Delta Psi(m) level decreases in the order hypothyroid > euthyroid > hyperthyroid, Polarographic measurement of the hepatocyte respiratory rates revealed an opposite trend of values: the highest respiratory rate in hepatocytes from hyperthyroid animals, the lowest in those from hypothyroid ones. This means that mitochondrial energy coupling is highest in hypothyroid hepatocytes and lowest in hyperthyroid hepatocytes. 6-Ketocholestanol added to hepatocytes failed to counterbalance the uncoupling effect of thyroid hormones on Delta Psi(m) and respiration rate. Under the same conditions, 6-ketocholestanol appeared to be effective in recoupling of respiration uncoupled by low concentrations of the artificial protonophore FCCP, The mechanism and possible physiological functions of the thyroid hormone-induced decrease in mitochondrial energy coupling are discussed. (C) 1998 Federation of European Biochemical Societies
[Damage to calcium ion-loaded mitochondria by fatty acids and the protective effect of carnitine]
No full textThe effect of fatty acids and L-carnitine on Ca2+ retention in rat liver mitochondria have been studied. Ca(2+)-retention was estimated as a sum of consecutive Ca2+ additions which leaded to transient stimulation of respiration coupled with influx of Ca2+ L-carnitine increases the Ca(2+)-retention; such an effect requires ATP. The Ca(2+)-retention was increased in the presence of 50 microM ATP or ADP. In all cases carboxyatractylate prevented the increase in Ca(2+)-retention. Palmitate and FCCP added at concentrations producing similar stimulating effect on respiration inhibit Ca(2+)-retention to about the same degree. The effect of palmitate is strongly diminished by L-carnitine. Again, the L-carnitine effect requires ATP. The data obtained suggest that the protonophoric effect of fatty acid plays a crucial role in Ca(2+)-dependent damage of mitochondria
Changes in liver structure and function after short-term and long-term treatment of rats with dehydroepiandrosterone
No full textThe effects on the liver of feeding a diet containing 0.2% dehydroepiandrosterone were studied after short (7 d) and long (100 d) periods of treatment in rats. The short-term treatment caused hypertrophy of the hepatocytes that, at the ultrastructural level, seemed to be due to proliferation of peroxisomes and (to a minor extent) of mitochondria. The mitochondria seemed to have undergone transition from expanded to condensed configuration; accordingly, after isolation, their rate of coupled respiration was greater than that of control mitochondria. After long-term treatment, the structure of the hepatocytes reverted toward normal. In fact, at the ultrastructural level, the number and the size of peroxisomes was not significantly different from those of the controls, but degenerative phenomena were observed in the mitochondria. Attempts are made to explain the above ultrastructural and biochemical findings in view of the effects of dehydroepiandrosterone on the energy metabolism of liver
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