Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.3.3.1 (citrate synthase)
 4,488 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is an unexplained, marked regional heterogeneity in perfusion within single skeletal muscles both in dogs and rabbits. We asked if a similar distribution of perfusion was present within cat muscles. If present, we wanted to assess the possible roles of nitric oxide (NO) mediated vasodilation and citrate synthase (CS) activity for the regulation of this perfusion pattern. Perfusion was determined in 0.25 g regions within the gastrocnemius muscles by trapping of microspheres. We studied awake or anesthetized cats before and during inhibition of NO-formation using N-monomethyl-L-arginine. The CS activity was determined in homogenates of these regions. The coefficient of variation corrected for the Poisson distribution of microspheres (CVc) for the regional perfusion averaged 0.39. Despite a 25% reduction in perfusion to the whole muscles as compared to control, the uneven distribution of perfusion was not affected by blocking NO formation. Regional perfusion was not correlated to regional CS activity. Even if the regional distribution of CS activity also showed a scatter, mean coefficient of variation corrected for methodological error = 0.20, it was markedly less than that for perfusion. We conclude that neither NO vasodilation nor CS activity play an important role in the regulation of the regional perfusion pattern within single cat muscles.
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PMID:Uneven perfusion within single cat muscles: nitric oxide and citrate synthase play no role. 141 Aug 46

Superoxide anion and nitric oxide production have been studied in resident and activated peritoneal macrophages of 3-, 12-, and 24-month-old rats. Some key enzymes involved in the metabolism of glucose were also studied in relation to aging. Production of O2 and NO was reduced in all cases in middle-aged (12 months) and old (24 months) animals. Malic enzyme and citrate synthase activity shows a progressive reduction with age. Hexoquinase, pyruvate quinase, and lactate dehydrogenase activities decrease sharply from 3 to 12 months with no significant change between 12 and 24 months. Taken as a whole, the results of enzyme activity suggest that aging may reduce the capacity for glucose utilization in macrophages.
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PMID:Nitric oxide and superoxide anion production decrease with age in resident and activated rat peritoneal macrophages. 861 88

The primary purpose of this study was to test the hypothesis that short-term exercise training enhances endothelium-dependent relaxation of porcine femoral and brachial arteries. Miniature swine ran on a treadmill for 1 h at 3.5 miles/h, twice daily, for 7 consecutive days (Trn; n = 8). Compared with sedentary controls (Sed; n = 7), Trn swine exhibited increased skeletal muscle citrate synthase activity (P < 0.05). Vascular rings approximately 3 mm in axial length were prepared from segments of femoral and brachial arteries, and responses to vasoactive agents were determined in vitro. Sensitivity to bradykinin (BK) was enhanced in brachial vascular rings from Trn swine compared with those from Sed swine, as indicated by lower concentration of vasorelaxing agent eliciting 50% of maximal response values [Sed, 8.63 +/- 0.09 (-log M); Trn, 9.07 +/- 0.13; P < 0.05]. This difference between groups was preserved in brachial rings in which formation of nitric oxide and vasodilator prostaglandins were inhibited [Sed, 8.57 +/- 0.17 (-log M); Trn, 8.97 +/- 0.13; P < 0.05]. Sensitivity to BK was not different between Sed and Trn in femoral arterial rings. Relaxation responses to the calcium ionophore A-23187 and sodium nitroprusside were not altered with training. Femoral and brachial arterial rings from Trn swine, compared with those from Sed swine, exhibited augmented vasocontraction across a range of concentrations and increased sensitivity to norepinephrine (all P < 0.05). These findings indicate that responses of porcine femoral and brachial arteries change in response to short-term training. Together with findings from previous studies involving longer term training, our data suggest that vascular adaptations may differ at different time points during long-term endurance exercise training.
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PMID:Short-term exercise training alters responses of porcine femoral and brachial arteries. 913 90

The possible role of nitric oxide (.NO) in brain energy metabolism during perinatal asphyxia in the rat was studied. Exposure of early neonates to 5 min of anoxia significantly inhibited brain mitochondrial complex II-III activity by 25%, without affecting complex I, complex IV or citrate synthase activities. This insult was accompanied by ATP depletion (54%) and increased concentration of nitrites plus nitrates (1.4-fold), suggesting enhanced .NO synthesis. Administration of Nomega-nitro-L-arginine monomethyl ester (L-NAME) to the mothers inhibited neonatal brain .NO synthase activity, as reflected by the decreased (23%) cyclic GMP concentration. These L-NAME-treated neonates showed complete resistance to anoxic-mediated brain mitochondrial complex II-III damage. Our results suggest that brain mitochondrial dysfunction leading to energy deficiency during perinatal asphyxia is a .NO-mediated process.
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PMID:Nitric oxide mediates brain mitochondrial damage during perinatal anoxia. 951 75

Strips of rat soleus muscle were incubated in media containing a superoxide generating system and/or the nitric oxide donor sodium nitroprusside (SNP) before the maximal catalytic activities of aconitase, citrate synthase, and oxoglutarate dehydrogenase were measured. The maximal activities of aconitase and oxoglutarate dehydrogenase were both decreased by 25-30% by superoxide anions; however, only the maximal activity of aconitase was decreased, by approximately 50%, by incubation of muscles with SNP. Furthermore, when both superoxide and NO were present in the medium, aconitase activity was decreased by 70%. The maximal activity of citrate synthase was not affected by any of the treatments. This is the first time that superoxide anions or NO has been shown to inactivate aconitase and oxoglutarate dehydrogenase in skeletal muscle. It is suggested that these effects may be responsible for some alterations in skeletal muscle metabolism, and these possibilities are discussed.
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PMID:Inactivation of aconitase and oxoglutarate dehydrogenase in skeletal muscle in vitro by superoxide anions and/or nitric oxide. 971 27

The effect of the induction of i-NOS in primary glial cultures was studied with respect to the protein levels of reactive oxygen species (ROS) scavenging enzymes and the cytotoxicity of nitric oxide (.NO) formation at different levels of artificially generated superoxide. Stimulation of the cultures by bacterial lipopolysaccharides and gamma-interferon resulted in an induction of i-NOS exclusively in microglial cells. Among the ROS scavenging enzymes superoxide dismutase (Cu/Zn- and Mn-isoform), glutathione peroxidase and catalase only mitochondrial Mn-SOD was found to be upregulated in the course of i-NOS induction (Western blots). Although .NO formation did not affect cell viability at physiological levels of superoxide over a time period of 4 days, it caused an oxidative load particularly in microglial cells as observed by monitoring the oxidation of dichloro-dihydrofluorescein, an indicator for the formation of peroxynitrite and ROS. Elevated levels of superoxide, generated either intracellularly by paraquat or extracellularly via xanthine oxidase and hypoxanthine, resulted dose-dependently in a larger decline of cell viability in the .NO forming cultures compared to controls (release of lactate dehydrogenase, citrate synthase, stainability by propidium iodide, and tetramethylrhodamine). NOS-inhibitors reduced the degree of cell damage to that seen for control cultures, indicating an ONOO--/.NO mediated mechanism of cell damage. Our data support the concept that i-NOS catalyzed .NO-formation leads to an ONOO--mediated increased oxidative load. At physiological levels of superoxide and within a wide range of higher superoxide levels this nitrosative stress is well balanced in cultured glial cells by protective mechanisms.
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PMID:Peroxynitrite mediated damage and lowered superoxide tolerance in primary cortical glial cultures after induction of the inducible isoform of NOS. 1049 18

The effects of exercise training were investigated on the vascular responses in the isolated guinea-pig saphenous artery. Exercising animals swam 5 days week-1 for 6 weeks (60 min day-1 for weeks 1 and 2; 75 min day-1 for weeks 3 and 4; 90 min day-1 for weeks 5 and 6), while control animals were placed into shallow water for the same duration. Trained animals had significantly higher ventricular:body weight ratios, increased citrate synthase activity in the latissimus dorsi, and enhanced Na+ pump concentrations in the latissimus dorsi and gastrocnemius muscles (P < 0.05). In vitro isometric techniques were used to measure constriction and relaxation responses of saphenous artery rings from trained and control animals. There were no significant differences in the constriction responses to KCl (50 mm) and phenylephrine (0.3-100 microM) in arterial rings from control versus trained animals. Relaxation responses to acetylcholine (10 microM; ACh-relaxation), following preconstriction with phenylephrine (10 microM), were significantly enhanced in rings from trained animals (P < 0.05). Acetylcholine relaxed the vessels to 47 +/- 6% (control) and 18 +/- 3% (trained) of the preconstriction responses to phenylephrine. The nitric oxide synthase inhibitor N G-nitro-L-arginine (L-NA; 50 microM) significantly attenuated the ACh-relaxation in control and trained animals (P < 0.05). The effect of L-NA on the ACh-relaxation was significantly larger in trained (change in ACh-relaxation with L-NA = 29 +/- 9%) than control (14 +/- 3%) animals (P < 0.05). In conclusion, exercise training enhanced the ACh-relaxation of the isolated guinea-pig saphenous artery. Inhibition of nitric oxide synthase attenuated the ACh-relaxation of rings from control and trained animals, but this effect was significantly larger in the vessels from trained animals. These results are consistent with the idea that nitric oxide could contribute to the enhanced ACh-relaxation of the saphenous artery with exercise training.
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PMID:Exercise training enhances relaxation of the isolated guinea-pig saphenous artery in response to acetylcholine. 1066 99

The effect of aglycaemic hypoxia (AH) on the activity of the mitochondrial respiratory chain complexes was measured in superfused neonatal cortical brain slices. After 30 min AH, there were no significant changes in the activities of complex I, II-III and IV or citrate synthase compared to controls. Following 30 min AH and a 30-min reperfusion period (with oxygen and glucose), the activities of complex II-III and complex IV were significantly reduced (by 25 and 17%, respectively). These reductions in enzyme activity were not abrogated by removing external calcium prior to and throughout AH, but could be reversed by the presence of the nitric oxide (NO) synthase inhibitor N omega-nitro-L-arginine during these periods. These data suggest that NO or an NO-derived species is involved in the decreases in mitochondrial enzyme activities observed after AH
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PMID:Nitric-oxide-induced inhibition of mitochondrial complexes following aglycaemic hypoxia in neonatal cortical rat brain slices. 1111 Nov 51

Damage to the mitochondrial electron transport chain has been suggested to be an important factor in the pathogenesis of a range of neurodegenerative disorders. We have previously demonstrated that chronic stress induced an increase in nitric oxide (NO) production via an expression of inducible NO synthase (iNOS) in brain. Since it has been demonstrated that NO regulates mitochondrial function, we sought to study the susceptibility of the mitochondrial respiratory chain complexes to chronic restrain stress exposure in brain cortex. In adult male rats, stress (immobilization for six hours during 21 days) inhibits the activities of the first complexes of the mitochondrial respiratory chain (inhibition of 69% in complex I-III and of 67% in complex II-III), without affecting complex IV activity, ATP production and oxygen consumption. The mitochondrial marker citrate synthase is not significantly affected by stress after 21 days, indicating that at this time the mitochondrial structure is still intact. Moreover, the administration of the preferred inducible nitric oxide synthase (iNOS) inhibitor aminoguanidine (400 mg/kg i.p. daily from days 7 to 21 of stress) protects against the inhibition of the activity of complexes of the mitochondrial respiratory chain as well as prevents NO(x)(-) accumulation, lipid peroxidation and glutathione depletion induced by stress. These results suggest that a sustained overproduction of NO via iNOS is responsible, at least in part, of the inhibition of mitochondrial respiratory chain caused by stress and that this pathway also accounts for the oxidative stress found in this situation.
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PMID:Glutathione depletion, lipid peroxidation and mitochondrial dysfunction are induced by chronic stress in rat brain. 1118 37

Oxidized lipids are capable of initiating diverse cellular responses through both receptor-mediated mechanisms and direct posttranslational modification of proteins. Typically, exposure of cells to low concentrations of oxidized lipids induces cytoprotective pathways, whereas high concentrations result in apoptosis. Interestingly, mitochondria can contribute to processes that result in either cytoprotection or cell death. The role of antioxidant defenses such as glutathione in adaptation to stress has been established, but the potential interaction with mitochondrial function is unknown and is examined in this article. Human umbilical vein endothelial cells (HUVEC) were exposed to oxidized LDL (oxLDL) or the electrophilic cyclopentenone 15-deoxy-Delta 12,14-PGJ2 (15d-PGJ2). We demonstrate that complex I activity, but not citrate synthase or cytochrome-c oxidase, is significantly induced by oxLDL and 15d-PGJ2. The mechanism is not clear at present but is independent of the induction of GSH, peroxisome proliferator-activated receptor (PPAR)-gamma, and PPAR-alpha. This response is dependent on the induction of oxidative stress in the cells because it can be prevented by nitric oxide, probucol, and the SOD mimetic manganese(III) tetrakis(4-benzoic acid) porphyrin chloride. This increased complex I activity appears to contribute to protection against apoptosis induced by 4-hydroxynonenal.
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PMID:Oxidized low-density lipoprotein and 15-deoxy-delta 12,14-PGJ2 increase mitochondrial complex I activity in endothelial cells. 1288 Dec 7


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