Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
 8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The characteristics of the energy metabolism were evaluated in the gastrocnemius muscle from 3- and 24-month-old rats in normoxia or subjected to either mild or severe chronic (4 weeks) intermittent normobaric hypoxia. Furthermore, 4-week treatment with saline or the TRH-analogue posatireline was performed. The muscular concentration of the following metabolites related to the energy metabolism was evaluated: glycogen, glucose, glucose 6-phosphate, pyruvate, lactate, lactate-to-pyruvate ratio; citrate, alpha-ketoglutarate, succinate, malate; aspartate, glutamate, alanine; ammonia; ATP, ADP, AMP, creatine phosphate; energy charge potential. Furthermore the maximum rate of the following muscular enzymes was evaluated: hexokinase, phosphofructokinase, pyruvate kinase, lactate dehydrogenase; citrate synthase, malate dehydrogenase; total NADH cytochrome c reductase; cytochrome oxidase. The age-related decrease in muscular glucose 6-phosphate, pyruvate and alanine concentrations and increase in citrate concentration were consistent with the age-related decreased hexokinase and increased citrate synthase activities. Ageing was characterized by a decrease in muscular creatine phosphate concentration, while the energy mediators and the energy charge potential were unchanged. The chronic (4 weeks) intermittent normobaric mild and severe hypoxia-induced alterations of the components in the anaerobic glycolytic pathway, tricarboxylic acid cycle and energy storage, that were magnified in the skeletal muscle from the oldest animals. The effect of the chronic treatment with the TRH-analogue posatireline suggests that the action of central nervous system-acting drugs could also be related to their direct influence on the muscular biochemical mechanisms related to the energy transduction.
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PMID:Age-related alterations of skeletal muscle metabolism by intermittent hypoxia and TRH-analogue treatment. 781 45

The toxicity of hydrophilic (cholate) and lipophilic (deoxycholate, chenodeoxycholate, and lithocholate) bile acids on the function of the electron transport chain was investigated in intact and disrupted rat liver mitochondria. In intact mitochondria, lipophilic bile acids used at a concentration of 100 mumol/L (0.1 mumol/mg protein) inhibited state 3 and state 3u (dinitrophenol-uncoupled) oxidation rates for L-glutamate, succinate, duroquinol or ascorbate/N,N,N',N'-tetramethyl-p-phenylenediamine as substrates. In contrast, state 4 oxidation rates and ADP/oxygen ratios were not significantly affected. At a bile acid concentration of 10 mumol/L (0.01 mumol/mg protein), the state 3 oxidation rate for L-glutamate was decreased in the presence of deoxycholate, chenodeoxycholate or lithocholate, whereas only lithocholate inhibited state 3 oxidation for succinate or duroquinol. In broken mitochondria, inhibition of oxidative metabolism was found for NADH or duroquinol as substrate in the presence of 100 mumol/L lithocholate (0.2 mumol/mg protein) and for duroquinol in the presence of 100 mumol/L chenodeoxycholate. Direct assessment of the activities of the enzyme complexes of the electron transport chain revealed decreased activities of complex I and complex III in the presence of 100 mumol/L deoxycholate or chenodeoxycholate or 10 mumol/L lithocholate. Inhibition of complex IV required higher bile acid concentrations (300 mumol/L for chenodeoxycholate or 30 mumol/L for lithocholate), and complex II was not affected. Both chenodeoxycholate and lithocholate were incorporated into mitochondrial membranes. The phospholipid content of mitochondrial membranes decreased in incubations containing 100 mumol/L (0.1 mumol/mg protein) chenodeoxycholate but was not affected in the presence of 100 mumol/L lithocholate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Toxicity of bile acids on the electron transport chain of isolated rat liver mitochondria. 790 81

In a reconstituted system, the participation of the ATP/ADP carrier (AAC) in the free fatty acid (FFA)-induced proton transport was demonstrated (i) by direct measuring of the proton transport through the membranes of AAC proteoliposomes and (ii) by monitoring of the transmembrane potential delta psi in AAC-cytochrome-c oxidase (COX)-coreconstituted proteoliposomes. FFA increased the initial rate of proton transport in AAC proteoliposomes and decreased delta psi in AAC-COX proteoliposomes. Inhibitors of AAC suppressed the effects of FFA. Without AAC or with inactive AAC, FFA cannot maintain proton leakage through the membrane. In these cases, even a small increase of delta psi was induced by FFA. These results demonstrate for the first time with purified components a participation of AAC in FFA-induced proton transport supporting an earlier suggestion (Skulachev, V.P. (1991) FEBS Lett. 294, 158-162). Mersalyl treatment of the AAC-COX proteoliposomes resulted in an increase of the AAC-mediated protonophoric action of FFA. Mersalyl also sensitized the protonophoric action of the FFA against nucleotides so that even guanine nucleotides, which are inactive in transport, become inhibitory. The effect of mersalyl is rationalized in terms of a specific interaction with cysteine 159 being attracted as anion by surrounding positive charges. This might open a gate similarly as suggested for eosin 5-maleimide interaction (Majima, E., Koike, H., Hong, Y.-M., Shinohara, Y., and Terada, H. (1993) J. Biol. Chem. 268, 22181-22187) and, thus, transform the AAC into undirectional transport mode.
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PMID:The reconstituted ADP/ATP carrier can mediate H+ transport by free fatty acids, which is further stimulated by mersalyl. 796 43

The respiratory chain of adult Paragonimus westermani, a lung fluke, was characterized in isolated mitochondria. The fluke mitochondria exhibited cyanide- and antimycin A-sensitive succinate oxidase activity at a rate of 16.8 nmol O2 min-1 mg-1 protein. The succinate oxidation was shown to be stimulated by ADP and linked to the formation of membrane potential. The specific activities of oxidoreductases composing the succinate oxidase system, i.e., succinate-ubiquinone and succinate--cytochrome c oxidoreductase (complex II and complex II-III, respectively) and cytochrome c oxidase (complex IV), were compared in mitochondria from adult Paragonimus, bovine heart (an aerobic tissue), and muscle of adult Ascaris suum which possesses an anaerobic respiratory chain. The activity values of complex II-III and complex IV were high, middle, and low for bovine heart, Paragonimus, and A. suum, respectively, whereas the activity of complex II was comparable among the three sources. The cytochrome contents of Paragonimus mitochondria as determined by difference absorption spectrophotometry ranged between those in Ascaris and bovine mitochondria for types c and aa3 cytochromes. Paragonimus mitochondria exhibited a high activity of NADH-fumarate reductase; the specific activity was about 18-fold higher in fluke submitochondria than in bovine heart submitochondria. Quinone analysis by HPLC and mass spectrometry showed that the fluke mitochondria contain both rhodoquinone-10 and ubiquinone-10 at concentrations of 0.572 and 0.321 nmol mg-1 mitochondrial protein, respectively. These data clearly show that mitochondria from adult P. westermani, unlike adult Ascaris mitochondria, possess both cyanide-sensitive succinate oxidase and NADH-fumarate reductase systems, indicating that the fluke mitochondria are facultatively anaerobic.
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PMID:Respiratory chain of the lung fluke Paragonimus westermani: facultative anaerobic mitochondria. 803 Nov 21

The present study deals with the in vitro and in vivo effects of methyl isocyanate (MIC) on rat brain mitochondrial function. Addition of MIC to tightly coupled brain mitochondria in vitro resulted in a mild stimulation of state 4 respiration, abolition of respiratory control, decrease in ADP/O ratio, and inhibition of state 3 oxidation. The oxidation of NAD(+)-linked substrates (glutamate + malate) was more sensitive (fourfold) to the inhibitory action of MIC than succinate while cytochrome oxidase was unaffected. Administration of MIC subcutaneously at a lethal dose affected respiration only with glutamate+malate as the substrate (site I) and caused a 20% decrease in state 3 oxidation leading to a significant decrease in respiratory control index while state 4 respiration and ADP/O ratio remained unaffected. As both the malondialdehyde and iron contents of brain mitochondria were not altered, it may be inferred that the observed in vivo inhibition of state 3 oxidation is induced by MIC through systemic stagnant hypoxia leading to ischemia of brain, which further contributes to the cerebral hypoxia.
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PMID:In vitro and in vivo effects of methyl isocyanate on rat brain mitochondrial respiration. 806 Jan 73

Human placental mitochondria prepared by a new isolation procedure exhibit low but well coupled rates of state 3 respiration with different substrates (succinate: 32.3 nmol O2/mg/min, RCI = 4.4; pyruvate: 12.6 nmol O2/mg/min, RCI R = 4.2; palmitoylcarnitine: 16.6 nmol O2/mg/min, RCI R = 4.9). The addition of the uncoupler FCCP increased the respiratory rates (succinate: 40.7 nmol O2/mg/min; pyruvate: 21.2 nmol O2/mg/min: palmitoylcarnitine: 25.4 nmol O2/mg/min). The low respiratory rates correlate well with a low capacity of the respiratory chain as shown by the specific contents of cytochrome c (0.15 nmol/mg), cytochrome b (0.19 nmol/mg) and cytochrome oxidase (0.14 nmol/mg) as well as with the low content of adenine nucleotides (2.71 nmol/mg). These data together with the finding of high activities of alkaline phosphatase (2.2 U/mg) support the view that human placental mitochondria are contaminated with nonmitochondrial membranes. Since it was not possible to obtain functionally intact mitochondria with negligible activities of alkaline phosphatase the influence of this enzyme on the extramitochondrial adenine nucleotide turnover was investigated. Alkaline phosphatase splits phosphate from ATP, ADP and AMP with different rates resulting in an intermediate accumulation of AMP. Mitochondrial adenylate kinase (0.16 U/mg) regenerated ADP from AMP and ATP resulting in drastically decreased ADP/O ratios and prolonged state 3 respirations. Inhibiting the adenylate kinase with diadenosine pentaphosphate the ADP regeneration from AMP and ATP was suppressed which, in turn, enhanced the ADP/O ratios. In the absence of magnesium ions, if both the alkaline phosphatase and the adenylate kinase are inhibited normal ADP/O ratios and state 3-state 4 transitions can be observed. Under these conditions, human placental mitochondria showed normal properties comparable to those of mitochondria from other tissues with the only exception of low specific activities.
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PMID:Unusual properties of mitochondria from the human term placenta are caused by alkaline phosphatase. 806 53

We have used the method of subtractive hybridization to isolate cDNA clones of mRNAs expressed in abundance in the visual cortex of 30-day-old kittens but absent or in lower abundance in the adult cat visual cortex. Of 12,000 colonies screened, 200 clones which hybridized to the subtracted probe were isolated and characterized. Northern blots confirmed the specificity of the vast majority of the isolated clones. 120 of the 200 clones were sequenced and the EMBL and GenBank (release 76) database were searched for known identities using FASTA and BLAST programs. Twenty-seven of these sequenced clones were identifiable. The identities showed that these sequences code for proteins involved in a variety of cellular processes. These include cell-cell interaction (TAPA-1, contactin, tachykinin receptor, phospholipase A2), cellular remodeling (C1q beta isoform, heat shock protein), neurofilament assembly (alpha tubulin and alpha internexin), neurotransmitter release (VAMP-2, amphiphysin, carboxypeptidase E, scg 10 and proton channel), energy metabolism (mitochondrial hinge protein, ADP/ATP transporter, cytochrome oxidase subunits), RNA processing (helix destabilizing protein, ribonucleoprotein) and protein synthesis (eIF-4A initiation factor, ribosomal protein S27). The results show that gene expression in the kitten visual cortex differs rather little from that of the adult visual cortex since over 98% of the sequences appear common. The relatively rare kitten-specific sequences are likely to form the basis for the critical period plasticity in this system.
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PMID:Identification of cDNA clones expressed selectively during the critical period for visual cortex development by subtractive hybridization. 818 Aug 41

The ADP:O values in both cardiac and hepatic mitochondria have significantly decreased with an increase in protein level after 7, 14 and 21 d of feeding (Toyomizu et al. 1992). The present studies were undertaken to clarify tissue-specific effects of dietary protein levels on oxidative phosphorylation in the liver, kidney, skeletal muscles and small intestine and to characterize oxidative metabolism with diverse substrates in the liver. Chicks were fed on semi-purified diets of different protein levels (7, 25, 43 and 61% of metabolizable energy content) for 21 d. The responses of protein levels to oxidative phosphorylation showed tissue-dependency; although liver mitochondria of chickens fed on higher-protein diets exhibited reduced ADP:O values and state 3, neither changes in ADP:O value nor state 3 and state 4 rates were observed in the isolated mitochondria from kidney and skeletal muscles. Small intestinal mucosal mitochondria from chickens fed on a high (61%)-protein-energy diet showed significantly reduced ADP:O value and respiratory control ratio when compared with medium-protein-energy diets (25 and 43%). In liver mitochondria showing the most sensitive dependency to the levels of dietary protein, the ADP:O value decreased with increasing protein levels when pyruvate+malate- or glutamate-requiring complexes I, III and IV of the electron transport chain were used as substrates, but it did not change when succinate-requiring complexes II, III and IV or ascorbate+tetramethyl-p-phenylenediamine requiring complex IV was used. These results imply that impaired oxidative phosphorylation capacities with increasing dietary protein levels may be associated with functional damage to the respiratory chain for electron flow from NAD-linked substrates to the ubiquinone pool.
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PMID:Tissue- and substrate-dependent responses of oxidative phosphorylation to dietary protein level in chicks. 826 Apr 73

Optimal conditions were developed for measuring rates of protein synthesis in isolated mitochondria from encysted embryos of Artemia franciscana to 1) identify the required chemical constituents, 2) assess the influence of extramitochondrial pH on protein synthesis, and 3) investigate potential mechanisms coordinating nuclear and mitochondrial gene expression. Isolation procedures resulted in intact, highly coupled mitochondria [respiratory control ratio = 6.48 +/- 0.43 (SE), n = 21]. Requirements for maximal rates of protein synthesis, measured as incorporation of [3H]leucine (60 microM), included an oxidizable carbon source (10 mM succinate), adenine nucleotides (1.5 mM ADP), phosphate (10 mM), K+ (125 mM), Mg2+ (10 mM), amino acids (0.3 mM of each), sucrose or trehalose (500 mM), EGTA (1 mM), and bovine serum albumin (1 mg/ml). Rates were linear for 60 min at 25 degrees C (r = 0.99). Fluorography of translated products revealed 13 peptides. Previous research has shown that anoxia-induced acidification of intracellular pH (pHi) results in suppression of protein biosynthesis, as judged by cytochrome-c oxidase synthesis. In the present study, mitochondrial protein synthesis was acutely sensitive to external pH, with 80% inhibition observed by lowering pH from 7.5 to 6.8. Thus acidification of pHi may serve as one intracellular signal contributing to a coordinated suppression of both cytoplasmic and mitochondrial protein synthesis during transitions from active to anoxia-induced quiescent states.
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PMID:Regulatory features of protein synthesis in isolated mitochondria from Artemia embryos. 828 63

The conditions of treatment of human skeletal muscle fibers from M. vastus lateralis with saponin were optimized to achieve complete permeabilization of cell membrane at intact mitochondrial oxidative phosphorylation. After 30 min of incubation with saponin all lactate dehydrogenase, 50% of creatine kinase, 30% of adenylate kinase and less than 20% of citrate synthase was released into the permeabilization medium. These skinned fibers behave similar to isolated mitochondria from human skeletal muscle: (i) the respiration with mitochondrial substrates can be stimulated by ADP, (ii) inhibited by carboxyatractyloside and (iii) it is possible to detect fluorescence changes of mitochondrial NAD(P)H on additions of substrates, uncoupler and cyanide. From a comparison of rates of respiration per cytochrome aa3 content of isolated human skeletal muscle mitochondria and saponin-skinned muscle fibers it was possible to calculate that almost 85% of mitochondria in those fibers are accessible for the investigation of oxidative phosphorylation. As shown by the investigation of biopsy samples of two patients with undefined myopathies these fibers are a suitable object for the replacement of isolated mitochondria in the diagnosis of mitochondrial myopathies and encephalomyopathies.
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PMID:Functional characterization of mitochondrial oxidative phosphorylation in saponin-skinned human muscle fibers. 834 61


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