Studies on the Development of Mitochondria of Mung Bean Cotyledons During Imbibition

The development of mitochondria in the course, of imbibition ofmung bean cotyledons was studied. Mitochondria were prepared by differential centrifugation, and purified by discontinuous sucrose, density gradient centrifugation. Theelectron micrographs revealed that the mitochondria isolated from dry seeds cotyledonslook like small vesicles, when cotyledons were imbibed for two hours, the mitochondrial cristae were not observed, but after four hours, a few cristae appeared on the innermembrane. Till 12 hours, the inner membrane systems wore well-developed. Al this time.all the space in mitochondria are filled with cristae. With the structural integrity of the mitochondria, the functions of oxidation and phosphorylation were graduallyshown, For instance, ADP/O ratio and RCR were not able to be measured in the imbibition of 2 and 4 hours, but at 6th hours, ADP/O Was increased by 0.6, RCR nearly 2.0, After 24 hours imbibition, ADP/O and RCR were increased to 1.5 and 3.5 respectively. The activity of cytochrome oxidase reached the highest after imbibition for 3 hours (2.54 OD/mg protein/min). If cotyledons were imbibed continuously, the activityof this enzyme in mitochondria remained constant. The activity of ATPase located onthe inside of the mitochondrial inner membrane was gradually enhanced from the beginnning of imbibition. These results suggest that the assembly of cytochrome oxidaseand ATPase on mitochondrial membrane may not be synchronous.     

Effects of paraquat on mitochondria of rat skeletal muscle

The effect of the herbicide paraquat (N,N'-dimethyl 4,4'-bipyridium), known to damage the lipid cellular membrane by peroxidation with superoxide radicals and a singlet oxygen, was investigated on skeletal muscle mitochondria. Minced rat gastrocnemius muscles were incubated in 8 mM paraquat solution. Mitochondrial fractions prepared from the incubated muscles were examined with respect to respiratory function and the enzyme activity of cytochrome c oxidase and succinate-cytochrome c reductase in the electron transport chain. The ADP/O ratio, RCR, and state 3 rates (= oxygen consumption in state 3) decreased gradually. State 4 rates (= oxygen consumption in state 4) increased in the initial stages and decreased after longer incubations. Enzyme activities gradually increased. These results suggested that paraquat damaged the mitochondrial membrane and disrupted oxidative phosphorylation in the early stage of incubation. Also, the electron transport chain was accelerated in the earlier stage and broken following a longer incubation. The inhibitory modality of paraquat on mitochondrial respiration was shown to be different from that of other known inhibitors.     

Resveratrol-induced limitation of dysfunction of mitochondria isolated from rat brain in an anoxia-reoxygenation model

Resveratrol protection on the main functions of purified rat brain mitochondria submitted to anoxia-reoxygenation was investigated. Resveratrol (<0.1 microM) reversed partly (23.3%) the respiratory control ratio (RCR) decrease by protecting both states 3 and 4. This effect was both observed when resveratrol was added before anoxia or reoxygenation. Resveratrol fully inhibited the release of cytochrome c in a concentration-dependent manner and significantly decreased the superoxide anion (O2(0-)) production at a concentration of 1 nM. The mitochondrial membranes damaged after the anoxia-reoxygenation were partly protected (about 70%) by resveratrol at 0.1 microM. The oxygen consumption of mitochondria in presence of NADH and cytochrome c was significantly inhibited by resveratrol with a low EC50 of 18.34 pM. Resveratrol inhibited the CCCP-induced uncoupling from about 20%. The effects of resveratrol on oxidative phosphorylation parameters were also investigated in rats after pretreatment (0.4, 2 and 10 mg/kg/day) for one week. After the isolation of brain mitochondria, the RCR was significantly less decreased in the resveratrol group compared to the control group. These results showed that resveratrol could preserve the mitochondrial functions with at least three mechanisms: antioxidant properties, action on complex III and a membrane stabilizing effect.     

谷胱甘肽的抗线粒体脂质过氧化作用

谷胱甘肽是细胞内重要的抗氧化损伤物质之一．以NADH诱导的牛心肌线粒体脂质过氧化体系为模型,研究了谷胱甘肽的抗氧化作用．结果表明,一定浓度的谷胱甘肽能够部分抑制该体系中线粒体的脂质过氧化．保护组的丙二醛含量为损伤组72．5％;线粒体的膨胀度较损伤组降低;细胞色素C氧化酶及ATP酶活力分别较损伤组提高了1．5及2．2倍．     

Oxidative phosphorylation by pyridoxine-deficient rat brain mitochondria

Abstract— Oxygen uptake, ADP/O ratios and respiratory control ratios (RCR) were studied by the oxygen electrode technique in mitochondria prepared from adult and neonatal brains from normal and pyridoxine-deficient rats. The mitochondria from neonatal brain exhibited decreased rates of substrate oxidation, ADP/O ratios and respiratory control ratios in comparison to those obtained with mitochondria from the respective adult brains. The cytochrome contents of the neonatal brains were also less than those of the adults. Within the neonatal or adult groups, there were no differences in any of the parameters tested between the normal and pyridoxine-deficient rats.     

Endogenous protective mechanisms in remodeling of rat heart mitochondrial membranes in the acute phase of streptozotocin-induced diabetes

The aim of present study was to investigate functional and physical alterations in membranes of heart mitochondria that are associated with remodeling of these organelles in acute phase of streptozotocin-induced diabetes and to elucidate the role of these changes in adaptation of the heart to acute streptozotocin-induced diabetes (evaluated 8 days after single dose streptozotocin application to male Wistar rats). Action of free radicals on the respiratory chain of diabetic-heart mitochondria was manifested by 17 % increase (p<0.05) in oxidized form of the coenzyme Q(10) and resulted in a decrease of states S3 and S4 respiration, the respiratory control index, rate of phosphorylation (all p<0.01) and the mitochondrial transmembrane potential (p<0.05), but the ADP/O ratio decreased only moderately (p>0.05). On the contrary, membrane fluidity and the total mitochondrial Mg2+-ATPase activity increased (both p<0.05). In diabetic heart mitochondria, linear regression analysis revealed a reciprocal relationship between the increase in membrane fluidity and decrease in trans-membrane potential (p<0.05, r = 0.67). Changes in membrane fluidity, transmembrane potential, Mg2+-ATPase activity and the almost preserved ADP/O ratio appear as the manifestation of endogenous protective mechanisms participating in the functional remodeling of mitochondria which contributes to adaptation of the heart to diabetes.     

Endomorphins and morphine limit anoxia-reoxygenation-induced brain mitochondrial dysfunction in the mouse

The protection of brain mitochondria from oxidative stress is an important therapeutic strategy against ischemia-reperfusion injury and neurodegenerative disorders. Isolated brain mitochondria subjected to a 5 min period of anoxia followed by 5 min reoxygenation mirrored the effect of oxidative stress in the brain. The present study attempts to evaluate the protective effects of endomorphin 1 (EM1), endomorphin 2 (EM2), and morphine (Mor) in an in vitro mouse brain mitochondria anoxia-reoxygenation model. Endomorphins (EM1/2) and Mor were added to mitochondria prior to anoxia or reoxygenation. EM1/2 and Mor markedly improved mitochondrial respiratory activity with a decrease in state 4 and increases in state 3, respiratory control ratio (RCR) and the oxidative phosphorylation efficiency (ADP/O ratio), suggesting that they may play a protective role in mitochondria. These drugs inhibited alterations in mitochondrial membrane fluidity, lipoperoxidation, and cardiolipin (CL) release, which indicates protection of the mitochondrial membranes from oxidative damage. The protective effects of these drugs were concentration-dependent. Furthermore, these drugs blocked the enhanced release of cytochrome c (Cyt c), and consequently inhibited the cell apoptosis induced by the release of Cyt c. Our results suggest that EM1/2 and Mor effectively protect brain mitochondria against oxidative stresses induced by in vitro anoxia-reoxygenation and may play an important role in the prevention of deleterious effects during brain ischemia-reperfusion and neurodegenerative diseases.     

Mitochondrial cytochrome c oxidase as a target site for cephalosporin antibiotics in renal epithelial cells (LLC-PK(1)) and renal cortex

We reported previously that treatment of the pig kidney proximal tubular epithelial cell line LLC-PK(1) with cephaloridine (CLD) decreased the activity of cytochrome c oxidase in the mitochondria of the cells followed by increases in lipid peroxidation and cell necrosis. In this study, we investigated the effects of CLD on the activity of cytochrome c oxidase in mitochondria isolated from LLC-PK(1) cells and purified the enzyme from mitochondria of the rat renal cortex. The activity of cytochrome c oxidase in the isolated mitochondria from LLC-PK(1) cells was significantly decreased from 1 h after addition of 1 mM CLD. Other cephalosporin antibiotics, cefazolin and cefalotin, also decreased the activity of cytochrome c oxidase in the isolated mitochondria. The activity of cytochrome c oxidase purified from the mitochondria of the rat renal cortex was also decreased from 2 h after addition of 1 mM CLD in a non-competitive manner. These results suggest that the direct inhibition of cytochrome c oxidase activity in the mitochondrial electron transport chain by cephlosporins may result from the observed nephrotoxicity.     

脱辅基细胞色素c定向于线粒体的转运特异性研究

用分离纯化的完整线粒体和部分细胞器组分,初步研究了脱辅基细胞色素c在细胞内转运的特异性。完整线粒体用差速离心和密度梯度离心的方法,从幼龄鸡心肌组织中获得,对胞内几种细胞器标志酶比活力的测量表明,纯化的线粒体单胺氧化酶活力提高25.6倍,腺苷酸激酶活力提高3.59倍,细胞色素c氧化酶活力提高5.48倍,外膜完整性达90%以上,呼吸控制率大于20。以上数据表明该纯化的线粒体受胞内其它囊泡成分污染少,外膜完整并具有较高的氧化磷酸化偶联效率;在纯化线粒体的同时,得到另两种细胞器组分-内质网和溶酶体囊泡。体外转录翻译的apo.c与上述几个组分的结合实验表明,完整线粒体与apo.c的结合能力明显高于其它组分。     

Energy conservation by the plant mitochondrial cyanide-insensitive oxidase. Some additional evidence.

Several measures of energy conservation, namely ADP/O ratio, P/O ratio, ATP/O ratio and phosphorylation detected by continuous assay with purified firefly luciferase and luciferin, all show phosphorylation can occur with mung-bean mitochondria at cyanide concentrations sufficient to inhibit the cytochrome oxidase system. Phosphorylation in the presence of cyanide is uncoupler- oligomycin- and salicylhydroxamate-sensitive. The participation of phosphorylation site 1 is excluded, phosphorylation being attributable to a single phosphorylation site associated with the cyanide-insensitive oxidase. The cyanide-insensitive oxidase has also been shown to support a variety of other energy-linked functions, namely, Ca2+ uptake, reversed electron transport and the maintenance of a membrane potential detected by the dye probes 8-anilinonaphthalene-1-sulphonate and safranine. High concentrations of cyanide have uncoupler-like activity, decreasing the ADP/O ratio and the t 1/2 for the decay of a pH pulse through the the mitochondrial membrane. This uncoupler-like effect is most marked with aged mitochondria. The observations of energy conservation attributable to the cyanide-insensitive oxidase are compared with other reports where it is concluded that the alternative oxidase is uncoupled.     

Chromium(VI) interaction with plant and animal mitochondrial bioenergetics: a comparative study

The mechanism of Cr(VI)-induced toxicity in plants and animals has been assessed for mitochondrial bioenergetics and membrane damage in turnip root and rat liver mitochondria. By using succinate as the respiratory substrate, ADP/O and respiratory control ratio (RCR) were depressed as a function of Cr(VI) concentration. State 3 and uncoupled respiration were also depressed by Cr(VI). Rat mitochondria revealed a higher sensitivity to Cr(VI), as compared to turnip mitochondria. Rat mitochondrial state 4 respiration rate triplicated in contrast to negligible stimulation of turnip state 4 respiration. Chromium(VI) inhibited the activity of the NADH-ubiquinone oxidoreductase (complex I) from rat liver mitochondria and succinate-dehydrogenases (complex II) from plant and animal mitochondria. In rat liver mitochondria, complex I was more sensitive to Cr(VI) than complex II. The activity of cytochrome c oxidase (complex IV) was not sensitive to Cr(VI). Unique for plant mitochondria, exogenous NADH uncoupled respiration was unaffected by Cr(VI), indicating that the NADH dehydrogenase of the outer leaflet of the plant inner membrane, in addition to complexes III and IV, were insensitive to Cr(VI). The ATPase activity (complex V) was stimulated in rat liver mitochondria, but inhibited in turnip root mitochondria. In both, turnip and rat mitochondria, Cr(VI) depressed mitochondrial succinate-dependent transmembrane potential (Deltapsi) and phosphorylation efficiency, but it neither affected mitochondrial membrane permeabilization to protons (H+) nor induced membrane lipid peroxidation. However, Cr(VI) induced mitochondrial membrane permeabilization to K+, an effect that was more pronounced in turnip root than in rat liver mitochondria. In conclusion, Cr(VI)-induced perturbations of mitochondrial bioenergetics compromises energy-dependent biochemical processes and, therefore, may contribute to the basal mechanism underlying its toxic effects in plant and animal cells.     

水分胁迫对甘蔗叶片线粒体膜流动性的影响及其与膜脂过氧化的关系

用荧光探剂ANS对抗旱性不同的甘蔗品种在水分胁迫下叶片线粒体膜流动性的变化进行的研究表明,水分胁迫降低了线粒体膜的流动性,抗旱性强的甘蔗品种Co 617和F.Y.79-9的下降幅度分别小于抗旱性弱的Co 740和M.T.77-208;水分胁迫下线粒体膜流动性的下降与膜脂过氧化产物丙二醛含量的增加有密切关系。外源自由基处理试验也表明,甘蔗叶片线粒体膜流动性的下降与膜脂过氧化作用有关。     

Effects of 1,4-dihydropyridine derivatives (cerebrocrast, gammapyrone, glutapyrone, and diethone) on mitochondrial bioenergetics and oxidative stress: a comparative study

The potential protective action of 1,4-dihydropyridine derivatives (cerebrocrast, gammapyrone, glutapyrone, and diethone) against oxidative stress was assessed on mitochondrial bioenergetics, inner membrane anion channel (IMAC), Ca2+-induced opening of the permeability transition pore (PTP), and oxidative damage induced by the oxidant pair adenosine diphosphate (ADP)/Fe2+ (lipid peroxidation) of mitochondria isolated from rat liver. By using succinate as the respiratory substrate, respiratory control ratio (RCR), ADP to oxygen ratio (ADP/O), state 3, state 4, and uncoupled respiration rates were not significantly affected by gammapyrone, glutapyrone, and diethone concentrations up to 100 microM. Cerebrocrast at concentrations higher than 25 microM depressed RCR, ADP/O, state 3, and uncoupled respiration rates, but increased three times state 4 respiration rate. The transmembrane potential (deltapsi) and the phosphate carrier rate were also decreased. At concentrations lower than 25 microM, cerebrocrast inhibited the mitochondrial IMAC and partially prevented Ca2+-induced opening of the mitochondrial PTP, whereas gammapyrone, glutapyrone, and diethone were without effect. Cerebrocrast, gammapyrone, and glutapyrone concentrations up to 100 microM did not affect ADP/Fe2+-induced lipid peroxidation of rat liver mitochondria, while very low diethone concentrations (up to 5 microM) inhibited it in a dose-dependent manner, as measured by oxygen consumption and thiobarbituric acid reactive substances formation. Diethone also prevented deltapsi dissipation due to lipid peroxidation initiated by ADP/Fe2+. It can be concluded that: none of the compounds interfere with mitochondrial bioenergetics at concentrations lower than 25 microM; cerebrocrast was the only compound that affected mitochondrial bioenergetics, but only for concentrations higher than 25 microM; at concentrations that did not affect mitochondrial bioenergetics (< or = 25 microM), only cerebrocrast inhibited the IMAC and partially prevented Ca2+-induced opening of the PTP; diethone was the only compound that expressed antioxidant activity at very low concentrations (< or = 5 microM). Cerebrocrast acting as an inhibitor of the IMAC and diethone acting as an antioxidant could provide effective protective roles in preventing mitochondria from oxidative damage, favoring their therapeutic interest in the treatment of several pathological situations known to be associated with cellular oxidative stress.     

马氏蝎毒毒素的分离纯化及其对红细胞膜作用的初步研究

本文用山东产马氏蝎(Buthus martensii kashi)粗毒为材料,经SephadexG-50和Sp-Sephadex C-25二次柱层析,分离纯化获得三个毒峰部分,毒性比粗毒分别提高40—100倍。 纯度鉴定表明三个毒峰的聚丙烯酰胺凝胶电泳和等电聚焦电泳均为一条带,等电点分别为8.7,9.1,9.1,分子量用SDS-不连续聚丙烯酰胺凝胶电泳测定分别为6,600,5,000和8,500。对纯化蝎毒毒素的氨基酸组分也作了分析。 蝎毒毒素对人红细胞膜作用的初步探索结果表明:它使人红细胞膜的Na.K-ATP酶活性和膜脂流动性有所降低。     

Infrared spectra of carbon monoxide bound to mitochondria from diverse species and tissues reveal structurally similar cytochrome c oxidase dioxygen reaction sites

Infrared bands for CO bound to mitochondria from bovine and porcine hearts, bovine brain, rat kidney, and blowfly flight muscle and to intact blowfly flight muscle have been measured in the carbon-oxygen stretch region. Each spectrum contains a narrow band near 1963 cm-1 similar to the major band found earlier for the carbonyl cytochrome c oxidase purified from bovine heart. A second band near 1959 cm-1 ascribed to a less stable conformer of the purified oxidase carbonyl is also detected in mitochondria. These spectra support very similar CO (and O2) binding sites among all the oxidases examined whether the enzyme is purified or is still within mitochondria or intact tissue and therefore suggest that the reduced heme A ligand binding site has been highly conserved during evolution.     

Interrelationships of copper, cytochrome oxidase, phospholipid synthesis and adenine nucleotide binding.

Studies are reported on the interrelationships in liver mitochondria of copper status, cytochrome oxidase activity, adenine nucleotide binding capacity and phospholipid synthesis. Direct exposure of mitochondria to cyanide or diethyldithiocarbamate depressed cytochrome oxidase activity; ADP-binding and phospholipid synthesis. Fractionation of mitochondria to increase the specific activity of cytochrome oxidase about 10-fold did not increase the affinity to bind ADP. Ageing of mitochondria or dialysis of mitochondria or mitochondrial membrane preparations against water or diethyldithiocarbamate at 0--2 degrees for 18 h did not decrease cytochrome oxidase activity or copper content of reisolated and resuspended mitochondria or mitochondrial membrane preparations, but considerably reduced the affinity to bind ADP. The respiratory inhibitors, fluoride and azide, at concentrations inhibitory to cytochrome oxidase did not reduce ADP-binding or phospholipid synthesis. Atractyloside did not inhibit cytochrome oxidase activity but did inhibit ADP-binding and phospholipid synthesis. Pre-incubation of mitochondrial membrane preparations with Cu++ increased the copper content and ADP-binding affinity. The results indicate that cytochrome oxidase is not the ADP-binding site of the mitochondrial membrane system and that reduced cytochrome oxidase activity per se does not depress binding affinity. Copper appears to be a component of the adenine nucleotide binding sites of mitochondrial membranes because the copper-complexing agents, cyanide and diethyldithiocarbamate, depressed ADP-binding, while increased mitochondrial membrane copper content increased ADP-binding.     

Enterocyte mitochondrial dysfunction due to oxidative stress

The endogenous production of H2O2 in isolated rat intestinal mitochondria and oxidant induced damage to mitochondria were examined. There was an appreciable amount of H2O2 production in presence of succinate, glutamate and pyruvate, while the presence of rotenone with succinate further increased production. Superoxide generated by the X-XO system induced membrane permeability transition (MPT), calcium influx, lipid peroxidation and changes in membrane fluidity in mitochondria. A decreased mitochondrial ATPase activity and uncoupling of respiration was also observed. Spermine inhibited swelling induced by X-XO and also blocked the calcium influx and reversed the membrane fluidity changes.     

Temperature adaptation of biological membranes. Compensation of the molar activity of cytochrome c oxidase in the mitochondrial energy-transducing membrane during thermal acclimation of the carp (Cyprinus carpio L.)

The acclimation temperature of carp does not affect the amount of cytochrome c oxidase per mg mitochondrial protein as revealed from the reduced-minus-oxidized difference spectra of red muscle mitochondria from cold- and warm-acclimated carp. There are no differences between cold- and warm-acclimated fish in the substrate binding properties of the enzyme as judged from the Km values for cytochrome c at 30 degrees C (3.34 +/- 0.ee microM, acclimation temperature 10 degrees C and 3.55 +/- 0.31 microM, acclimation temperature 30 degrees C). The molar activities of the enzyme, however, differ for both acclimation temperatures: when intercalated in the 10 degrees C-acclimated mitochondrial membrane, the enzyme can catalyze the oxidation of 117.6 +/- 17.2 mol ferrocytochrome c/s per mol heme a as compared with 85.6 +/- 17.2 in the 30 degrees C-acclimated membrane (experimental temperature 30 degrees C). Correspondingly, higher specific activities of the succinate oxidase system are observed in mitochondria from cold-acclimated carp as compared with those obtained from warm-acclimated carp. The results indicate that cold acclimation of the eurythermic carp is accompanied by a partial compensation of the acute effect of decreasing temperature on the activity of cytochrome c oxidase in red muscle mitochondria. Based on the temperature-induced lipid adaptation reported for carp red muscle mitochondria (Wodtke, E. (1980) Biochim. Biophys. Acta 640, 698--709), it is concluded that during thermal acclimation the molar activity of cytochrome c oxidase is controlled by viscotropic regulation. The results fit to the conception that cardiolipin constitutes a lipid shell (annulus) surrounding the oxidase within the native membrane, but that it is the bilayer fluidity and not the annular fluidity which determines the activity of cytochrome c oxidase.     

OXIDATIVE PHOSPHORYLATION IN MITOCHONDRIA OF DEVELOPING RAT BRAIN

Abstract—

• 1 Oxygen uptake, ADP/O ratios and respiratory control ratios (RCR) were studied by oxygen electrode techniques in mitochondria prepared from developing rat brain.
• 2 Oxygen consumption, ADP/O ratios and RCR based on mitochondrial protein concentration increased with maturation. Of the substrates employed, succinate supported oxygen uptake best and malate poorest.
• 3 The addition of exogenous NAD to the mitochondrial preparation had no effect on rate of oxygen uptake.
• 4 Lack of change in ADP/O ratio in the presence of glucose, a tricarboxylic acid cycle intermediate (α-oxoglutarate), and ATP leads us to believe that there is no significant hexokinase activity in this preparation.