Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based upon literature and our own experimentation on Goldblatt rats, the significance of a decrease of the maximal shortening velocity of the myocardium at zero load (Vmax) in the hypertrophied, chronically pressure-loaded heart is discussed. In the hypertrophied myocardium with varying concentrations of the contractile structures, the developed tension under isometric conditions (sigma) and the maximum rate of tension development (d sigma/dtmax) can indicate significant deviations from the values of controls of the same age, without, however, making it possible to draw from these changes absolute conclusions about the elementary contractile process. With the enhanced concentration of contractile proteins, the mentioned isometric values, as well as the maximum instantaneous power (cross-sectionally related) of the myocardium can be increased during a stage of hypertrophy in which Vmax is already reduced. The decrease of Vmax shows a rough correlation with the reduction of the specific ATPase activity of actomyosin and is already observed at moderate degrees of hypertrophy (30 to 50%). The time course of the change of both parameters in experimental hypertrophy suggests a causal relation between the changes of those two parameters and the failure of the myocardium in later stages of a chronic overload. Under the condition of reliable estimation, Vmax allows for, also with changed actomyosin concentration, an assessment of the elementary contractile process. On the other hand, Vmax does not present a sufficient measure for the cross-sectionally related power capacity of the hypertrophied myocardium. The possible dissociation between the unloaded shortening velocity and the cross-sectionally related power capacity could, in certain cases, explain an unsatisfactory correlation between Vmax and the clinical state of the heart. The so-called empirical indices of contractility, which are not always clearly related to basic physiological characteristics of the myocardium, should be interpreted with particular reserve in relation to the hypertrophied cardiac muscle.
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PMID:[Maximum velocity of load-free shortening Vmax, myocardial capacity and "contractility indices" in the hypertrophic myocardium]. 13 30

Hypertensive Goldblatt-rats have higher than normal Na-appetite and an enhanced Na-output. They have normal plasma Na- and K-concentration and kidney weight but a significantly reduced plasma volume. The amount of renal membrane protein and the renal Na-K-ATPase-activity of hypertensive rats was found to be significantly below that of controls. In order to evaluate the role of Na-appetite, Na-excretion rate and renal Na-K-ATPase-activity in the electrolyte balance, Goldblatt-rats with a stable hypertension and control animals were put for 8 days on a Na-free diet. Na-excretion rate of control rats reached a minimum (13 muEq/100 g x 24 hr) within 5 days and was maintained on this level up to the end of the experiment. Na-free diet did not alter either the kidney weight or the amount of membrane protein of the animals. However, in salt-free fed control rats total renal Na-K-ATPase-activity was found elevated by about 10% as compared to animals maintained on normal diet. Goldblatt-rats continuously excreted significantly higher amounts of Na (35 muEq/100 g x 24 hr), had sharply reduced plasma volume and plasma Na- concentration. The renal Na-K-ATPase-activity should no adaptation in gold blatt-rats. In all animals studied the rate of Na-excretion showed a close indirect correlation with the renal Na-K-ATPase-activity. It is concluded, that Goldblatt-rats depend on dietary Na to a higher extent than controls because of their reduced capacity to retain Na. The increased Na-appetite of hypertensive rats is a factor secondary to Na-loss.
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PMID:Interdependence of Na-excretion, plasma electrolytes, plasma volume and renal Na-K-ATPase-activity in hypertensive rats. 13 99

Left ventricular myocardia of Goldblatt rats with an average increase in arterial blood pressure to about 200 mm Hg showed a progressive reduction of the Ca-activated specific acotmyosin ATPase activity 4 -12 weeks after the coarctation of one renal artery, as compared with controls of the same age. During the same period, a significant increase in the concentration of contractile proteins was noticeable, whereas the content of nonprotein substances and of water corresponded to the control values. The hydroxyproline concentration, as a measure of the collagen tissue content, increased only after 24 weeks. The time course of the specific ATPase activity was closely parallel to the decrease in the unloaded myocardial shortening velocity, as estimated at the same stage by our group. This is in accordance with the assumption of a fundamental relationship between the two values. The reduced rate of energy turnover and of the shortening velocity is regarded as an adaptive mechanism which, however, has a negative effect in advanced hypertrophy when further diminution takes place. The decrease in the specific enzymatic activity of actomysin is not necessarily linked to a large increase in myocardial mass, but is already apparent at moderate degrees of hypertrophy (34%).
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PMID:Concentration and adenosinetriphosphatase activity on left ventricular actomyosin in Goldblatt rats during the compensatory stage of hypertrophy. 13 1

Based on mechanical, biochemical and electron microscopic studies performed in the same stage of experimental cardiac hypertrophy, an attempt is made to define the significance of individual factors responsible for the alterations in myocardial function. Using swimming rats, it is demonstrated that a load-induced increase in cardiac mass is not necessarily connected with an impairment of contractile capability on a cellular level. Yet, also, the reduction of specific ATPase activity and unloaded shortening velocity in pressure-induced hypertrophy (goldblatt rats; aortic stenosis) seems to be the expression of adaptation rather than of cellular damage, at least in the earlier stages. Although there are distinct indications of alterations in Ca-dependent activation and deactivation, in the Goldblatt model electromechanical coupling does not seem to be the main cause of altered contraction parameters. The correlation between specific ATPase activity of actomyosin and unloaded shortening velocity as well as the persistance of decrease in shortening velocity, also under optimal electromechanical coupling conditions, point to an inner relationship between the two values. A discrepancy between unloaded shortening velocity on the one hand and developed tension on the other is mainly due to an increased content of contractile structures. In later stages, an increased connective tissue content influences both isometric and isotonic parameters.
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PMID:Myocardial function in different models of cardiac hypertrophy. An attempt at correlating mechanical, biochemical, and morphological parameters. 14 Jun 58

In Goldblatt rats (GV) 4-24 weeks after coarctation of one renal artery the following characteristics were registered as compared to controls (CV) of the same age: Arterial blood pressure increased to 190-200 mmHg in comparison to 105-110 mmHg in controls. This pressure overload induced an increase in ventricular weights (34%-54%). Noteworthy differences in myocardial water, total protein, and nonprotein substance contents were found. Hydroxyproline concentration in GV did not increase significantly until 24 weeks after onset of pressure overload. No significant alterations were detected in the relationship of myocardial, sarcoplasmic, and stromal protein fractions. However, greater changes could be registered in the concentration of the myofibrillar protein fraction and its single components. Furthermore, a correlative depression in specific actomyosin ATPase activity and in maximum shortening velocity of the unloaded cardiac muscle (2,3) was observed.
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PMID:Characteristics of the hypertrophied left ventricular myocardium in Goldblatt rats. 14 Jun 72

The factors regulating calcium homeostasis in the cardiac plasma membrane of renal hypertension in the rat (two kidney-one clip, Goldblatt model) have been studied. Comparison of the cardiac sarcolemma from control (C) and hypertensive (H) rats indicates similar protein yield and purity. Study of longer term hypertension (4 to 12 weeks) shows a decrease in the number of calcium channel receptor binding sites (Bmax C: 549 +/- 122 fmol/mg; H: 334 +/- 74 fmol/mg) as well as a depressed calcium pumping ATPase activity (C: 7.6 +/- 2.5 nmol/mg/min; H: 3.8 +/- 1.5 nmol/mg/min). Furthermore, there is a decreased rate of Na+-Ca2+ exchange (C: 5.4 +/- 1.9 nmol/mg/5 s; H: 2.3 +/- 0.9 nmol/mg/5 s). Study of short-term hypertension (1 to 4 weeks) indicates that the earliest change occurs at 1 week with decreased calcium pumping ATPase due to a change of the Vmax of Ca2+ transport (C: 9.7 +/- 1.6 nmol/mg/min; H: 5.4 +/- 1.4 nmol/mg/min). This is then followed by the decreased calcium channel receptor binding. However, the rate and the extent of depression in Ca2+-ATPase activity are much greater than that of Ca2+ channel receptor binding. Since alteration of Ca2+-ATPase is accompanied by an increase in intracellular Ca2+ concentration and there is a temporal association with the onset of myocardial lesions in the hypertensive rats, it is suggested that elevated intracellular calcium concentration as a result of altered Ca2+-ATPase activity may play a significant role in the development of hypertensive cardiomyopathy.
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PMID:Altered calcium regulation in the cardiac plasma membrane in experimental renal hypertension. 284 6

We investigated the changes in ventricular isomyosin composition and Ca2+-activated ATPase activity during progression and regression of hypertension and cardiac hypertrophy. Eight control male Wistar rats and 14 Goldblatt-II (two-kidney, one clip) hypertensive rats were studied from the 5th week of age. Five of the Goldblatt-II rats underwent nephrectomy of the ischaemic kidney after 5 weeks, with normalization of blood pressure. The hypertensive rats showed a higher biventricular weight to body weight ratio (P less than 0.02), a lower ATPase activity (P less than 0.005), and an increased expression of 'slow' isomyosins in comparison with the age-matched controls. These changes were more pronounced at 15 than at 10 weeks of age. The 15-week-old nephrectomized rats showed the same degree of cardiac hypertrophy, ATPase activity and isomyosin pattern as the age-matched controls. In conclusion, the changes in ventricular myosin observed during the progression of cardiac hypertrophy regressed after normalization of blood pressure and ventricular mass.
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PMID:Progression and regression of cardiac hypertrophy in hypertensive rats: biochemical and molecular changes in ventricular myosin. 294 23

The changes in ventricular isomyosin composition and Ca2+-activated ATPase activity occurring with regression of both hypertension and cardiac hypertrophy were investigated by using polyacrylamide gel electrophoresis under nondenaturing conditions, heavy chain peptide mapping, and an enzymatic assay. Eight control male Wistar rats and 14 two-kidney, one clip (Goldblatt II) hypertensive rats were studied from the fifth week of age. At 10 weeks of age, five Goldblatt II rats and four normotensive controls were killed. Five other Goldblatt II rats underwent nephrectomy of the ischemic kidney, which resulted in subsequent normalization of blood pressure. The remaining four control, four Goldblatt II rats, and five nephrectomized rats were killed at 15 weeks of age. Both the 10- and 15-week-old hypertensive rats had a significantly higher (p less than 0.001) biventricular weight to body weight ratio than the age-matched controls (3.84 +/- 0.76 X 10(-2) vs 2.75 +/- 0.25 X 10(-2); 5.93 +/- 2.26 X 10(-2) vs 2.65 +/- 0.17 X 10(-2]. The 15-week-old nephrectomized rats had a biventricular weight to body weight ratio (2.90 +/- 0.25 X 10(-2] close to that of age-matched controls and significantly lower (p less than 0.05) than that of age-matched hypertensive rats. In both the 10- and 15-week-old hypertensive rats left ventricular myosin Ca2+-activated ATPase activity was significantly lower (p less than 0.001) than in the age-matched controls (0.44 +/- 0.03 vs 0.59 +/- 0.06; 0.24 +/- 0.05 vs 0.48 +/- 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in rat ventricular isomyosins with regression of cardiac hypertrophy. 294 51

Alkaline phosphatase, sucrase, Na+,K+-ATPase and Mg2+-ATPase specific activities of crude membrane fractions, prepared from duodenal, jejunal, ileal and colonic mucosa, have been estimated in three types of hypertensive rats: the spontaneously hypertensive rat (SHR), the DOCA-saline treated rat and the renovascular rat (Goldblatt one-kidney, one-clip rat; 1K-1C). Alkaline phosphatase and sucrase specific activities have been measured in purified jejunal brush-border membranes. When compared with its normotensive age-matched control (WKY rat), the SHR has a lower activity of alkaline phosphatase in duodenal and jejunal crude membrane fractions, whereas a higher activity in colonic Na+,K+-ATPase is recorded. In purified jejunal brush-border membranes, lower alkaline phosphatase activity and higher sucrase activity were found. These differences occur in the young prehypertensive SHR as well as in the adult animal. In the DOCA-treated rat, the only significant alteration in crude membrane fractions is a decreased Mg2+-ATPase activity at all regions of intestinal mucosa. In purified jejunal brush-border membranes both alkaline phosphatase and sucrase activities are increased at 4 or 7 weeks but especially at 13 weeks of hypertension. In the 1K-1C rat, no significant modification appears in crude membrane fractions or in purified jejunal brush-border membranes, but a decrease in alkaline phosphatase and in sucrase activities is probable after 13 weeks of hypertension. Since alterations of the intestinal enzymes are different in the three types of hypertensive rats it is concluded that the changes are not secondary to the hypertension condition. In the SHR, these alterations are present in the young prehypertensive animal.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations of intestinal membrane-bound enzymes in three types of hypertensive rats. 301 51

Hypertension and resulting left ventricular hypertrophy was induced in young male Wistar rats (60 to 70 days old) by narrowing of one renal artery (Goldblatt II). 8 and 24 weeks after operation, myocardial oxygen consumption was measured on a modified in situ heart-lung preparation with nearly isovolumetric left ventricular contractions. Measured myocardial oxygen consumption was related to left ventricular wall stress. The myosin isoenzyme pattern of each heart was determined with pyrophosphate gel electrophoresis. Oxygen consumption related to wall stress averaged over the entire heart cycle amounted to 15 mumoles O2/g X min 8 weeks after operation, and 24.4 mumoles O2/g X min in age-matched controls (delta 38%, p less than 0.0005). When wall stress was averaged over systole, oxygen consumption of the hypertrophied hearts amounted to 0.112 mumoles O2/g x beat, and 0.149 mumoles O2/g x beat in the controls (delta 25%, p less than 0.05). The proportion of VM-3 (the cardiac myosin isoenzyme of lowest ATPase activity) increased from 26.3% in the controls to 30.1% in the Goldblatt hearts (delta 14%, n.s.). 24 weeks after operation, oxygen consumption related to wall stress averaged over the entire heart cycle amounted to 16.1 mumoles O2/g x min, in age-matched controls 20.5 mumoles O2/g x min (delta 21%, p less than 0.05). When wall stress was averaged over systole, oxygen consumption of the Goldblatt hearts amounted to 0.080 mumoles O2/g x beat, and in the controls 0.107 mumoles O2/g x beat (delta 25%, p less than 0.0005). The proportion of VM-3 increased from 33.5% in the controls to 43.2% in the hypertrophied hearts (delta 29%, p less than 0.05). The present findings indicate that the reduced oxygen consumption of the pressure-loaded heart should be attributed to a redistribution of myosin isoenzymes. The transformation of myocardium into a slower, but more efficiently working muscle due to an increase in VM-3 can be interpreted as an adaptational process.
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PMID:Alterations in cardiac oxygen consumption under chronic pressure overload. Significance of the isoenzyme pattern of myosin. 621 50


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