EC:2.3.3.1 - FACTA Search

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)

To study the early effects of hypertension on the heart, we examined isolated hearts from rabbits with slowly developing hypertension of up to 64 weeks in duration after unilateral nephrectomy and renal artery stenosis. Normotensive animals kept under identical conditions served as controls. Mean arterial blood pressure rose from 83 to 155 mm Hg in the hypertensive group of longest duration, but the ratio of left ventricular weight to body weight was not different between the experimental and control groups. Although left ventricular hypertrophy was not present, left ventricular peak systolic pressure of perfused hearts was significantly higher in hypertensive than in normotensive hearts. Furthermore, while in hypertensive hearts the left ventricular end-diastolic volume was increased, the peak systolic pressure did not respond to an increase in left ventricular end-diastolic volume. Functional changes were accompanied by metabolic changes in the left ventricle. Rates of glucose utilization were increased and rates of ketone body utilization were decreased in hypertensive hearts. Activities of key enzymes of carbohydrate metabolism (phosphorylase, hexokinase, phosphofructokinase, and lactate dehydrogenase) were increased, while those of ketone body metabolism (3-oxoacid-CoA transferase, acetoacetyl-CoA synthase) were decreased and those of the citric acid cycle (citrate synthase, 2-oxoglutarate dehydrogenase) were not different between groups. In summary, moderate hypertension for a period of more than 1 year resulted in functional and metabolic changes of the left ventricle in hypertensive animals that were already manifest at 8 weeks of hypertension.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of moderate hypertension on cardiac function and metabolism in the rabbit. 336 75

The effects of isoprenaline administration (300 micrograms/kg for 5 weeks) on rat soleus muscle capillarity and glycolytic and oxidative capacities were evaluated. The treatment resulted in ventricular hypertrophy. The activities of lactic dehydrogenase, pyruvate kinase, citrate synthase, and cytochrome c oxidase in soleus muscle homogenates were not different between control and isoprenaline-injected animals. Capillaries were visualized in muscle cross sections treated to demonstrate ATPase activity after acid preincubation. Capillary density was higher in the experimental (873 +/- 38 capillaries/mm2) than in the control (713 +/- 33 capillaries/mm2) animals. Capillary to fiber ratio was also higher in the experimental (2.47 +/- 0.10) than in control (2.09 +/- 0.08) animals, but fiber cross-sectional area was not changed by the treatment (2836 +/- 87 microns2 in controls and 2951 +/- 136 microns2 in experimental). A plot of capillary to fiber ratio vs. fiber cross-sectional area showed that at a given fiber cross-sectional area the value of capillary to fiber ratio of the treated animals was higher than that of the controls. This indicates that treatment resulted in the proliferation of microvessels. The results suggest that prolonged beta-adrenergic stimulation results in the development of new capillaries but that this is not accompanied by increases in the oxidative capacity of the soleus muscle of the rat.
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PMID:Long-term isoprenaline administration produces an increase in capillarity in the soleus muscle of the rat. 358 Sep 52

The hypertrophied left ventricles of renovascular hypertensive Wistar rats were examined for several enzyme activities 4-6 and 8-12 weeks after operation (Goldblatt-II), and compared with controls. The activities of beta-hydroxyacyl-CoA dehydrogenase in hypertrophied myocardial tissue were found to be markedly diminished, as were those of citrate synthase, although to a lesser degree. In both stages of left ventricular hypertrophy hexokinase activity was considerably increased, whereas that of lactate dehydrogenase was only initially slightly elevated. Both enzymes showed an altered isoenzyme composition. The possible reasons and consequences of these changes are discussed.
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PMID:Left ventricular enzyme activities of the energy-supplying metabolism in Goldblatt-II rats. 404 51

Concentric left ventricular hypertrophy was produced in puppies by coarctation banding of the aorta at age 7 weeks. Hemodynamic, morphologic and biochemical studies were carried out 18 months after the operation. Systolic blood pressure proximal to the aortic constriction was 216 +/- 16 mmHg in experimental dogs compared with 115 +/- 5 mmHg in littermate control dogs. Ejection fraction of control and experimental dogs were 59 +/- 4 and 64 +/- 7, respectively. The left ventricular end-diastolic pressure was 6.0 +/- 0.4 in control and 8.4 +/- 1.1 in experimental dogs. There was no sign of overt heart failure in the experimental dogs. Anatomical analysis of different regions of the heart indicated that LV mass in the experimental dogs was increased by about 60%. Ultrastructure of mitochondria in situ, as observed under electron microscope, was normal both in control and hypertrophic hearts. Mitochondria isolated from epicardial and endocardial regions of the stable hypertrophic hearts showed normal rates of respiration, phosphorylation, citrate synthase, and cytochrome c oxidase activities compared to those isolated from hearts of littermate control dogs. It was, therefore, concluded that mitochondrial function is adequately preserved to meet the increased demand for energy in this model of stable cardiac hypertrophy of long duration.
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PMID:Mitochondrial function in canine experimental cardiac hypertrophy. 630 71

Hyperthyroidism is associated with exercise intolerance. Previous research, however, has shown that cardiac output is either normal or enhanced during exercise in the hyperthyroid state. We therefore hypothesized that blood flow to working skeletal muscle is augmented in hyperthyroid animals during in vivo submaximal exercise and, consequently, that noncardiovascular factors are responsible for intolerance to exercise. To test this hypothesis, rats were made hyperthyroid (Hyper) over 6-12 wk with injections of triiodothyronine (300 micrograms/kg). Hyperthyroidism was evidenced by left ventricular hypertrophy [euthyroid (Eut), 2.12 +/- 0.05 mg/g body wt; Hyper, 2.78 +/- 0.06; P < 0.005], 25-60% increases in citrate synthase activities in Hyper hindlimb muscles over those of Eut rats, and higher preexercise heart rates (Eut, 415 +/- 18 beats/min; Hyper, 479 +/- 19; P < 0.025). Regional blood flows were determined by the radiolabeled microsphere method, preexercise, and at 1-2 min of treadmill running at 15 m/min (0% grade). Total hindlimb muscle blood flow preexercise was unaffected (Eut, 31 +/- 4 ml.min-1.(100) g-1, n = 11; Hyper, 40 +/- 6, n = 9; not significant) but was higher (P < 0.025) in Hyper (127 +/- 17, n = 9) compared with Eut (72 +/- 11, n = 9) during treadmill running. During exercise, flows to individual muscles and muscle sections were approximately 50-150% higher in Hyper compared with Eut rats. Visceral blood flows were largely similar between groups. These findings indicate that hyperthyroidism is associated with augmented blood flow to skeletal muscle during submaximal exercise. Thus hypoperfusion of skeletal muscle does not account for the poor exercise tolerance characteristic of hyperthyroidism.
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PMID:Effects of hyperthyroidism on muscle blood flow during exercise in rats. 784 Feb 80

During myocardial hypertrophy, histological modifications induce a partial ischemic state and hemodynamic perturbations are responsible for an increased myocardial oxygen demand. The purpose of this study is to better characterize the alterations of intermediary metabolism linked to hemodynamic perturbations by carbon 13 NMR using enriched substrates. Left ventricular hypertrophy was consecutive to a renal hypertension (Goldblatt 2K-1C, 9 weeks). Myocardial compliance and contractility (left ventricular end diastolic pressure (LVEDP), +dP/dt max, +dP/dt max normalized to developed pressure (+dP/dt max/DEVP)) were estimated on Langendorff isolated perfused hearts at a constant perfusion pressure (normo and hypertensive rats (RHR)). Using (2-13C) acetate enriched (10 nm) substrate, 13C NMR spectra were obtained from tissue perchloric extracts. Mathematical model proposed by Malloy was used to analyze these 13C NMR spectra terms of metabolic fluxes: Fc2 = The fraction of (2-13C) acetyl-CoA entering the tricarboxylic acid cycle; y = The ratio between the activity of anaplerotic reactions to that of citrate synthetase. The results showed after hypoxia: an increase of LVEDP more pronounced in RHR (RHR: 48 +/- 15 mmHg VS SHAM: 22 +/- 6 mmHg, p < 0.01); a significant impairment of coronary blood flow more important in RHR; a significant increase of the ratio y in hypertrophied hearts (RHR: 0.062 +/- 0.09 VS SHAM: 0.15 +/- 0.02, p < 0.05). In conclusion, this study allowed a new approach to correlate diastolic dysfunction with metabolic data consecutive to an increased sensitiveness hypertrophy to hypoxic damages.
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PMID:[Metabolic aspects of hemodynamic behavior in left ventricular hypertrophy by 13C NMR]. 812 13

Mitochondrial respiratory chain enzyme activities were measured in biopsies of left ventricular myocardium from 25 adults in 3 groups: cardiac transplant recipients with atherosclerotic coronary artery disease (CAD), transplant recipients with idiopathic dilated cardiomyopathy (IDC), and patients with compensatory left ventricular hypertrophy due to aortic valve stenosis (AS). Specific activities of complexes I + III and II + III were 21 +/- 12 and 58 +/- 21 nmol/min/mg of noncollagen protein, respectively, in CAD, and 56 +/- 21 and 96 +/- 57 nmol/min/mg, respectively, in IDC (p < 0.004 and < 0.03, respectively). Specimens from patients with AS had enzyme activities that were intermediate between those from patients with CAD and IDC. Myocardium of patients with transvalvular pressure gradients between 50 and 79 mm Hg showed low activities of complexes I + III and II + III (17 +/- 5 and 62 +/- 17 nmol/min/mg of noncollagen protein, respectively), whereas those with higher pressure gradients between 80 and 100 mm Hg had enzyme activities of complexes I + III and II + III equal to those in IDC (37 +/- 11 and 73 +/- 18 nmol/min/mg, respectively). The same results were obtained when enzyme activities were normalized for the activity of the mitochondrial matrix enzyme citrate synthase. The data suggest that a compensatory metabolic adaptation of the mitochondrial respiratory chain enzymes occurs in both AS and IDC. A reduction in enzyme activities that is observed in heart failure due to CAD and that may explain the contractile dysfunction in these patients cannot be confirmed in IDC. In IDC, the enzyme activities are sustained until very late in the disease.
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PMID:Myocardial respiratory chain enzyme activities in idiopathic dilated cardiomyopathy, and comparison with those in atherosclerotic coronary artery disease and valvular aortic stenosis. 839 43

We examined the morphometric and biochemical effects of ventricular hypertrophy in male rainbow trout (Oncorhynchus mykiss) during sexual maturation. Our investigation focused on characterizing the growth of ventricular layers, on cardiomyocyte dimensions (length, cross-sectional area and cell volume) and on the activities of enzymes involved in intermediary metabolism. Relative ventricle mass (100 x ventricle mass/body mass) increased by as much as 2.4-fold during sexual maturation [as defined by an increasing gonadosomatic index (100 x gonad mass/body mass)], and this resulted in an increased proportion of epicardium relative to endocardium. Ventricular enlargement was associated with increased length (+31 %) and transverse cross-sectional area (+83 %) of cardiomyocytes, which resulted in an expansion of up to 2.2-fold in mean myocyte volume (from 1233 to 2751 micron3). These results indicate that sexual maturation induces ventricular enlargement through myocyte hypertrophy. Cell length and cross-sectional area were similar in both myocardial layers, and myocytes were elliptical rather than circular in transverse cross section. Ventricular hypertrophy did not alter transverse cell shape, perhaps reflecting the maintenance of short diffusion distances for small molecules as cells hypertrophy. Myocyte hypertrophy could not account entirely for the sevenfold range of ventricle masses from different-sized fish, indicating that myocyte hyperplasia contributes substantially to ventricular growth as trout grow. Measurements of the maximal activities of metabolic enzymes demonstrated that ventricular hypertrophy was associated with (1) higher epicardial but not endocardial activities of citrate synthase (by 23 %) and beta-hydroxyacyl-CoA dehydrogenase (by 20 %); (2) lower activities of hexokinase (by 50 %) in both layers, and (3) no change in lactate dehydrogenase or pyruvate kinase activities, which were also similar between layers. These results suggest that the energetic needs of the hypertrophied trout ventricle may be met through increased reliance on fatty acid oxidation, particularly by the endocardium, but decreased reliance on glucose as a metabolic fuel in both layers.
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PMID:Morphometric and biochemical characteristics of ventricular hypertrophy in male rainbow trout (Oncorhynchus mykiss). 955 37

We investigated effects of hypertension and early development on myocardial energy metabolism as reflected by maximal enzyme activities, glucose transporter content, and endogenous substrates in female Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHR). Left ventricular hypertrophy and systolic hypertension were evident in SHR at 6 weeks of age and these differences increased at 14 and 22 weeks of age. 3-Hydroxyacyl-CoA dehydrogenase (HOAD) activity in the left ventricle was 18% lower in 6-week-old rats than both 14- and 22-week-old rats, but not different between WKY rats and SHR. Hexokinase activity was 15% lower in 6-week-old SHR than WKY rats and decreased progressively with age in both strains. Glucose transporter (GLUT) 1 content was nearly twofold greater in 6-week-old rats than both 14- and 22-week-old rats. We found no difference in citrate synthase activity or GLUT4 content among groups. Glycogen concentration was 44% lower in SHR than WKY rats, whereas triglyceride was slightly (16%) higher in SHR than WKY rats. Older animals had higher levels both glycogen and triglyceride than younger animals. We conclude that the left ventricle of both SHR and WKY rats may change from predominantly glucose to fatty acid oxidation for energy production during early development.
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PMID:Changes in cardiac energy metabolism during early development of female SHR. 1104 Nov 61

This study was designed to characterize cardiac changes in myosin heavy chain (MHC)-beta, capacity for oxidative metabolism and muscle mass in hearts of rats born and raised at simulated altitudes (2200 m or 4000 m) compared to age-matched sea level controls. On the basis of electrophoretic analyses, we found that the hypoxia-induced ventricular hypertrophy produces a significant increase in MHC-beta in both ventricles. Furthermore, we observed an exponential relationship between the mass of right ventricular muscle and percentages in the expression of MHC-beta (r=0.928, P<0.001). We also observed the reduction in the citrate synthase (CS) and 3-hydroxyacyl-CoA dehydrogenase (HAD) activities in both hypertrophied ventricles (P<0.001). As a consequence, there were negative correlations between the percentage expression of MHC-beta and the CS or HAD activities (P<0.001). In contrast, there were no significant correlations between the relative expressions of MHC-beta and either CS or HAD enzymatic activities in both ventricles after adjusting for the relative wet mass. In conclusion, the observed increases in MHC-beta may be a compensation to augment efficiency if muscles contract in hypertrophied hearts where mitochondria fail to respond to increases in tissue mass. These findings suggest that the increased relative expression of MHC-beta is a compensation to sustain cardiac contractile efficiency in response to impaired oxidative metabolism in the hypoxia-induced hypertrophied ventricles of rats.
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PMID:Alterations in the expression of myosin heavy chain isoforms in hypoxia-induced hypertrophied ventricles in rats. 1294 47

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