EC:1.9.3.1 - FACTA Search

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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)

Endurance exercise training has been found to enhance the functional capacity of the myocardium in several animal models. The sub-cellular phenomena accompanying the augmented function are yet to be explained. The present study sought to determine if the myosin ATPase activity of cardiac muscle increased as a result of endurance conditioning. Five beagles trained by running on a motor driven treadmill (T) and five control (NT) animals were studied. Follwoing 10 weeks of training the T group had a significantly (P less than .05) lower heart rate than the NT while performing the same submaximal exercise and the gastrocnemius cytochrome oxidase activity was significantly greater (P less than .005) in the T than in the NT. These two measurements established that the exercised animals were physically trained. Myosin was isolated from the left ventricular myocardium and activated in a medium containing K-EDTA. No significant (P less than .05) difference in maximum myosin ATPase activity was observed between the NT and T groups in cardiac muscle. It was concluded that cardiac muscle myosin ATPase activity was not affected by 10 weeks of endurance conditioning induced by treadmill running in dogs.
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PMID:Effect of endurance training on myocardial myosin adenosine triphosphatase activity of the dog. 16 Apr 87

It was found that cytochrome oxidase from bovine cardiac muscle possesses marked superoxide dismutase activity. Superoxide dismutase activity is inhibited by cyanide and azide or by alkaline or thermal treatments. This activity is also suppressed by chelating agents, e.g. bathocuproin. The data obtained indicate that superoxide dismutase activity of cytochrome oxidase is due to the copper atoms of the enzyme. The experiments on the copper-containing subunit support this conclusion. Possible physiological significance of superoxide dismutase activity of cytochrome oxidase is discussed.
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PMID:[The role of copper atoms in the cytochrome oxidase reaction]. 21 26

Three copper-containing proteins were obtained from bovine brain soluble fraction. Two of them were purified to electrophoretically homogenous states. Some physicochemical properties of these proteins were studied. From mitochondrial fraction of grey matter of bovine brain cytochrome oxidase was obtained, which was similar to that obtained from cardiac muscle.
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PMID:[Copper-containing brain proteins]. 22 92

Clinical data suggest, and experimental studies indicate direct cardiotoxic effects of carbon monoxide, apart from carboxyhemoglobin formation. Carbon monoxide interactions with cytochrome oxidase and myoglobin are suspect. Of these, myoglobin is the favored tissue target for carbon monoxide binding. On what evidence? Examination of the literature reveals the following: A 16% greater "volume of distribution" (Vd) for carbon monoxide, versus other blood volume indicators, concentrating in skeletal and cardiac muscle; A high myoglobin content in these tissues corresponding to this "excess" Vd for carbon monoxide; Evidence from animals of significant carboxymyoglobin concentrations; Hemeprotein independent changes produced by carbon monoxide which promote carbon monoxide-myoglobin interactions; A high ratio of deoxymyoglobin (carbon monoxide binding form) to oxymyoglobin intracellularly; Direct intercellular measurements of oxymyoglobin saturations and "cycling" in vivo illustrating favorable conditions for carbon monoxide binding; Data indicating decrements in cardiac performance with loss of functional myoglobin; Evidence that myoglobin is important to the proper functioning of cardio-adaptive mechanisms in stress. The total picture of carbon monoxide poisoning must take into account pathogenic effects due to carboxymyoglobin formation.
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PMID:A review of carboxymyoglobin formation: a major mechanism of carbon monoxide toxicity. 223 44

The acute and prolonged effects of alcohol and smoking on the oxidative and energy processes of cardiac muscle in experimental animals were studied at the subcellular level. The acute effect of alcohol manifested itself by decreasing mitochondrial respiration, compensated by increased glycolytic activity of the myocardium so that myocardial energy phosphate concentration remained unchanged. The prolonged effect of alcohol (for a period of 14 days) resulted in a decrease in oxidative processes as well as in glycolytic activity with a subsequent decline in myocardial ATP and CP levels. Smoking led to a significant decrease in oxidative and total bioenergetic processes of cardiac muscle mitochondria both after acute and prolonged smoking. This metabolic disorder is localized in the terminal segment of the respiratory chain of the mitochondria at the level of cytochrome oxidase. The authors conclude that the above-mentioned disorders may play a role in the development of heart failure on the basis of alcoholic or smoke cardiomyopathy.
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PMID:Metabolic disorders of cardiac muscle in alcoholic and smoke cardiomyopathy. 280 6

Sarcolemmal vesicles prepared by a new procedure from bovine tracheal smooth muscle were found to have a Na-Ca exchange activity that is significantly higher than that reported for different preparations from other types of smooth muscle. The exchange process system co-purified with 5'-nucleotidase, a plasma membrane marker enzyme, and was significantly enriched (over 100-fold) compared to mitochondria (cytochrome-c oxidase) but only slightly enriched (4-fold) compared to sarcoplasmic reticulum (NADPH-cytochrome-c reductase). The Na+ dependence of Ca2+ transport was demonstrated through both uptake and efflux procedures. The uptake profile with respect to Ca2+ was monotonic with a linear vo VS. vo.S-1 plot. The resultant Km of Ca2+ from the airway sarcolemmal vesicles (20 microM) was similar in magnitude to the Km of cardiac sarcolemmal vesicles (30 microM). Tracheal vesicles demonstrated a Vmax of 0.3-0.5 nmol.mg-1.s-1 which is significantly higher than that reported in preparations from other smooth muscle types. Furthermore, two processes found to stimulate cardiac Na-Ca exchange, pretreatment with either a mixture of dithiothreitol and Fe2+ or with chymotrypsin, were ineffective on the tracheal smooth muscle. Thus, the Na-Ca exchanger identified in tracheal smooth muscle appears to be different from that observed in cardiac muscle, implying that regulation of this activity may also be different.
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PMID:Sodium-calcium exchange in sarcolemmal vesicles from tracheal smooth muscle. 282 16

The rate constant (k) of the cytochrome oxidase reaction under optimal conditions for cytochemical staining (i.e., 15 min fixation, incubation for 180 min for heart, 120 min for pancreas) can be used as a measure of the enzyme concentration within mitochondria. The rate constant derived from microdensitometric measurements of the mass thickness of the 3,3'-diaminobenzidine (DAB) cytochrome oxidase reaction in cristae times correlated data derived from morphometry on the surface density of cristae (SVcristae/Vmit micron-1) and the volume density of mitochondria per cell (Vmit/Vcell) has been used to determine the respiratory index (RI) of these tissues according to the following equation: RI = k(SVcristae/Vcell). Using this formula, the RI of cardiac muscle tissue was computed to be 33 times the RI of pancreas under the conditions of our experiments. The greater cristae surface density and the large mitochondrial volume density in cardiac muscle and high k value accounted for the higher RI of cardiac muscle.
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PMID:Quantitative cytochemistry of the diaminobenzidine cytochrome oxidase reaction product in mitochondria of cardiac muscle and pancreas. 618 30

Heme a3+ isolated from bovine cardiac muscle cytochrome oxidase has been converted to the bis-imidazole species and studied by magnetic circular dichroism (MCD) spectroscopy. Spectra have been recorded down to 1.5 degrees K, enabling the MCD magnetization curves to be measured at a number of wavelengths in the visible and near infrared regions. The experimentally determined curves show excellent correlation to a curve using the g-values determined by electron paramagnetic resonance spectroscopy to be gz = 2.96, gy = 2.29, and gx = 1.73. The data show that the bis-imidazole derivative of extracted heme a3+ is an excellent model of cytochrome a in the enzyme, confirming the presence of two histidine residues in the protein as the fifth and sixth ligands. The spectral features of heme a3+ bis-imidazole in the near infrared region are consistent with transitions of the porphyrin ( a1u , a2u ) to ferric (eg) charge transfer type.
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PMID:Low temperature magnetic circular dichroism spectra and magnetization properties of extracted heme a3+ bis-imidazole. A model of cytochrome a in bovine cytochrome c oxidase. 632 4

Defects of the mitochondrial respiratory chain in cardiac muscle are an important, yet still overlooked cause of heart failure. In 16 of 32 endocardial biopsies from infants affected by "idiopathic" hypertrophic cardiomyopathy we demonstrated a remarkable decrease of activity of either complex I, or complex IV, or both, relative to complex II + III activity which was taken as an index of mitochondrial proliferation. At the molecular level, several mtDNA mutations have been associated with cardiomyopathy. For instance, MIMyCa is a maternally inherited syndrome presenting with a variable combination of skeletal and heart muscle failure associated with a heteroplasmic A3260G transition in the tRNALeu(UUR) gene. To study the effects of the mutation in a controlled system, we prepared clones of transmitochondrial cybrids by fusing mutant cytoplasts with mtDNA-less tumor cells. Two groups of clones were identified: nearly 100% mutant (M group) and nearly 100% wild-type (WT group). The means of complex I and IV in the M group were 63% and 67% relative to the WT group. The O2 consumption in the M group was 36%, and the lactate production was 218% of that in the WT group. MtDNA-specific translation was defective in M clones. The study of transmitochondrial cybrids is an important clue to test the pathogenicity of mtDNA mutations.
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PMID:OXPHOS defects and mitochondrial DNA mutations in cardiomyopathy. 760 20

The effects of BRB-I-28 and its derivatives (GLG-V-13, SAZ-VII-22 and SAZ-VII-23), a novel group of antiarrhythmic agents, were investigated on the rat heart mitochondrial respiratory chain. The results indicate that BRB-I-28 and its derivatives have concentration-dependent inhibitory effects on NADH oxidase and NADH-CoQ reductase (complex I), but they have no significant effects on succinate oxidase, succinate dehydrogenase (complex II), CoQ-cytochrome c reductase (complex III), cytochrome c oxidase (complex IV), and NADH-K3Fe(CN)6 reductase. The site of inhibition of BRB-I-28 and its derivatives on the respiratory chain was localized between flavoprotein n (FPn) and CoQ, which is similar to the effect of rotenone and several other antiarrhythmic drugs such as amiodarone, propranolol, etc. BRB-I-28 and its derivatives also have significant inhibitory effects on mitochondrial ATPase activity as reported for other antiarrhythmic drugs such as amiodarone, propranolol, quinidine, and lidocaine. However, BRB-I-28 and its derivatives have no direct effects on sarcoplasmic reticulum Ca(2+)-ATPase activity. The inhibitory effects of BRB-I-28 and its derivatives on mitochondrial oxidative phosphorylation may result in the depletion of ATP. This effect, in combination with their effects on Na+,K(+)-ATPase, could possibly produce an increase in Ca2+ concentration in cytosol. This may be another mechanism by which these DHBCN derivatives produce an increase in systemic arterial blood pressure and contractile force of isolated cardiac muscle. On the other hand, inhibition on mitochondrial respiration may account for some of the potential toxic effects of these diheterabicyclo[3.3.1]nonane derivatives.
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PMID:Effects of novel antiarrhythmic agents, BRB-I-28 and its derivatives, on the heart mitochondrial respiratory chain and sarcoplasmic reticulum Ca(2+)-ATPase. 799 64

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