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)

Left ventricular hypertrophy was seen in catheterized, uninfected rabbits, whereas contractile failure superimposed upon hypertrophy was observed in catheterized animals after injection with Streptococcus viridans within six days. The infected animals showed marked changes in the ultrastructure of the left heart in comparison to the uninfected rabbits. The levels of calcium and potassium were decreased, whereas sodium was increased in both infected and uninfected hearts; however, magnesium levels did not change in uninfected hearts but were decreased at three days and increased at six days of infection. The microsomal calcium uptake was decreased in six-day uninfected as well as three-and six-day infected hearts. On the other hand, the mitochondrial calcium uptake was increased in six-day uninfected and three-day infected hearts but decreased in six-day infected hearts. The sarcolemmal calcium binding and (Na+,K+)ATPase activities were decreased in six-day uninfected as well as three- and six-day infected hearts. These results dramatic changes in intracellular calcium metabolism in myocardial hypertrophy and failure caused by bacterial infection.
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PMID:Alteration in calcium metabolism in cardiac hypertrophy and failure caused by bacterial infection. 14 39

To study the diastolic properties of the heart includes examining active relaxation, passive ventricular stiffness and atrial contraction. (i) The main determinant of active relaxation is the adenosine triphosphate (ATP) concentration. Relaxation needs to occur so that the ATP content of the cell can be decreased by activation of the myosin ATPase, which in turn depends upon an intracellular messenger, elevation of the calcium transient. In a model of cardiac hypertrophy active relaxation is always slower. This slowing accompanies a slowing of the calcium transient, a diminution in the activity of the Na+/Ca2+ exchanger, a change in the properties of Na+, K+ ATPase and a decreased concentration of Ca2+ ATPase in the sarcoplasmic reticulum. (ii) Chamber stiffness is likely to be increased only in relation to the degree of ventricular hypertrophy. The main, if not unique, determinant of ventricular diastolic tissue stiffness is the structure and concentration of the collagen. Consequently tissue stiffness is augmented in cardiac hypertrophy in which the ventricular collagen concentration is elevated. It is important that both clinically and experimentally cases of cardiac hypertrophy, even those resulting from pressure overload in which myocardial stiffness and cardiac collagen concentration remain unchanged, have been documented. A good example of this is the DOCA-salt model of arterial hypertension. (iii) Atrial contraction is normally more rapid than ventricular contraction, the biological basis for which is the difference in isomyosin content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biological basis of diastolic dysfunction of the hypertensive heart. 139 55

In addition to demonstrating evidences of increased sympathetic nervous system activity and marked left ventricular hypertrophy in salt-sensitive hypertensives, our group has also reported increased weight gain with salt overload in these patients. The increased weight gain suggests volume expansion, a situation already shown to increase plasma levels of a Na, K-ATPase inhibitor. Therefore, in the present study, digoxin-like factor (DLF) serum levels, spontaneous salt ingestion, nifedipine hypotensive effect, and plasma renin activity were evaluated in essential hypertensive subjects. Thirteen essential hypertensive outpatients were studied sequentially on an ad lib diet, a low salt diet (LSD = 30 mEq Na/day), and a high salt diet (HSD = LSD + 171 mmol/L NaCl/day), 1 week each. On the seventh day of LSD and HSD, DLF levels, mean blood pressure (MBP) response to nifedipine (10 mg sublingual), and plasma renin activity were measured. The MBP percent change from the seventh day of LSD to the seventh day of HSD (salt sensitivity) ranged from -13.7 to 20.9%. A positive correlation (r = 0.64, P < .01) was observed between salt sensitivity and 24-h urinary sodium excretion with an ad lib diet. The DLF serum levels correlated with the salt sensitivity both on LSD (r = 0.50, P < .05) and on HSD (r = 0.53, P < .05). Salt sensitivity was positively correlated with the difference of response to nifedipine between HSD and LSD (r = 0.78, P < .001). Plasma renin activity correlated inversely with DLF on LSD (r = -0.51, P < .05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Higher salt consumption, digoxin-like factor, and nifedipine response are associated with salt sensitivity in essential hypertension. 141 33

Cardiac adaptation to hemodynamic stress involves both quantitative (hypertrophy) and qualitative (pattern of gene expression) changes. Our previous studies have shown that advancing age in the rat is associated with diminished capacity to develop left ventricular hypertrophy in response to either ascending aortic constriction (AoC). In this study, we examined whether the expression of protooncogenes and contractile protein genes in response to AoC differs between adult (9-mo-old) and old (18-mo-old) rats. RNA was isolated from the left ventricles of AoC animals of both age groups subjected to a similar hemodynamic stress. Immediately after AoC, the levels of the ventricular expression of c-fos and c-jun protooncogenes were markedly lower in the old rats than in the adult animals. 5 d after the operation, the ratio of beta- to alpha-myosin heavy chain mRNAs increased significantly after AoC in both age groups. In contrast, AoC was associated with a marked reduction in the levels of mRNAs encoding sarcoplasmic reticulum Ca(2+)-ATPase (by 69%) and cardiac calsequestrin (by 49%) in the old rats but not in the adults. The mRNAs encoding atrial natriuretic factor and skeletal alpha-actin increased in response to AoC only in the adult rats. There were no significant differences in expression of the cardiac alpha-actin mRNA among the experimental groups. These data suggest that (a) the expression of protooncogenes in response to acute pressure overload is significantly reduced in the aged rats and (b) the pattern of expression of the contractile protein gene in response to AoC in the old rats differs qualitatively as well as quantitatively from that in younger animals. These age-related differences may play a role in the higher frequency of heart failure in the aged during hemodynamic stress.
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PMID:Age-related differences in the expression of proto-oncogene and contractile protein genes in response to pressure overload in the rat myocardium. 153 37

Causes of hypertension have been well scrutinized, whereas the secondary, disabling effects of high blood pressure are less well investigated. We have used a rat model of hypertension and developed a technique to study the secondary vascular smooth muscle component of the disorder. Banding patterns of myosin heavy chain isoforms from rat aortae were examined using denaturing electrophoresis, Western blotting, immunochemical identification, and degradation studies. Myofibrillar ATPase activities were also measured. Left ventricular hypertrophy and hypertension were induced in rats by aortic banding just proximal to the renal artery. Aortic banding increased the heart weight/body weight (mg/g) ratio from 2.8 to 3.8 and mean aortic weight by 53%. Two distinct myosin heavy chain isoforms, molecular masses of 204 and 200 kDa, were identified by 4% sodium dodecyl sulphate-polyacrylamide electrophoresis of crude aortic extracts from normal rats in a relative molar ratio of 1.54:1. The development of significant thickening of the aorta was marked by substantial increases in aortic wall smooth muscle content but was not associated with any changes in distribution of the isoforms. The band patterns obtained on gel electrophoresis were not the result of contamination by other proteins, as Western blotting studies with specific antibodies demonstrated that the isoforms were smooth muscle in origin and were not derived from nonmuscle myosin sources. Myofibrillar ATPase activity of aortic smooth muscle from hypertensive rats was increased. It is suggested that this increase may be the result of post-transcriptional alterations of one or more sarcomeric proteins involved in the regulation of smooth muscle contraction.
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PMID:Myosin heavy chain isoform distribution in normal and hypertrophied rat aortic smooth muscle. 182 1

Left ventricular papillary muscle function, transmembrane action potentials, myosin adenosinetriphosphatase (ATPase) and isoenzyme distribution, and myocardial pathology were studied in hypertensive (H), diabetic (D), hypertensive-diabetic (HD), and control (C) rats. There was approximately 50% relative left ventricular hypertrophy in H and HD rats. Relative lung and liver weights were greater in HD rats. Peak velocity of shortening tended to decrease progressively in H, D, and HD rats. The duration of contraction and relaxation was markedly prolonged in Ds and HDs. The length-developed tension relation was blunted in HDs. The negative inotropic effect of verapamil was similar in all groups. Resting membrane potential and amplitude were decreased in D and HD rats. Action potential duration was increased in H, D, and especially HD rats. The shortening of action potential duration with increased stimulus frequency was greater in H, D, and especially HD rats than in Cs. Left ventricular myosin ATPase and V1 isoenzyme content decreased progressively in H, D, and HD rats. Right ventricular V1 isoenzyme content was not affected in H rats but was markedly decreased in D and HD rats. Left (and right) ventricular pathology was unchanged in rats with diabetes but was increased in rats with hypertension. These data suggest that the combination of myocardial pathology (due to hypertension) and cellular dysfunction (caused mainly by diabetes) may result in cardiomyopathy and congestive heart failure in the HD rat.
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PMID:Hypertensive-diabetic cardiomyopathy in rats. 213 24

Overall, there is agreement that the origins of hypertension have a genetic basis. The genetic factors interact with environmental factors that influence expression and intensity of the disorder. As summarized in Table 1, there is evidence from the literature to identify pathways for the development of hypertension in blacks. Organ pathology, characteristic of the clinical phenotypic hypertension, consists of increased peripheral vascular resistance and left ventricular hypertrophy, and, particularly in blacks, nephrosclerosis. In this scheme, an intermediate phenotype is a biochemical or endocrine marker of gene expression that participates in the regulation of blood pressure. Intermediate phenotypic characteristics of essential hypertension include sodium sensitivity, adrenergic activity, cation transport, and endocrine function including renin-angiotensin-aldosterone, kallikrein-kinin, and prostaglandin. Another intermediate phenotype to be included in this discussion is insulin resistance. These intermediate phenotypes of cell and subcellular function are regulated by candidate genes. Alternatively, an intermediate phenotype can be expressed in response to another intermediate phenotype. For example, sodium sensitivity could be mediated by the cation transport mechanism of Na,K-ATPase, or insulin resistance could be induced by an elevated level of adrenergic activity. Gene expression of the intermediate phenotype is also modulated by environmental factors such as dietary sodium, potassium, or calcium, and social stresses or patterns of physical activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differences in blacks and whites with essential hypertension: biochemistry and endocrine. State of the art lecture. 219 Sep 20

The manifestations of cardiac involvement in hypertension include: (1) the development of hypertensive heart disease characterized by left ventricular hypertrophy (LVH), and (2) the consequences of coronary atherosclerosis, as angina pectoris, myocardial infarction, and sudden cardiac death. Whereas the former is directly related to increased blood pressure, the latter are sequelae of atherosclerosis per se, and hypertension acts only as a risk factor in this regard. This can partially explain why antihypertensive treatment is effective in diminishing the incidence of congestive heart failure, which is the final consequence of LVH, but is not very effective in preventing coronary complications. It is generally accepted about LVH that increased arterial pressure is the major stimulus to cardiac hypertrophy in hypertension; however, there are a lot of both quantitative and qualitative events suggesting that other factors beside blood pressure levels can modulate the development of LVH, in particular neurohumoral influences. From a morphological point of view, hypertrophy of the cardiac muscle is defined as an increase in the size of existing myocardial fibers. In most experimental models, myocardial hypertrophy is associated with myosin isoenzymatic changes, consisting in a shift from the faster migrating isoenzyme V1 to V3, a form that migrates more slowly. However these changes do not occur in all animal species and particularly in humans. In the hypertrophied human ventricle, a decreased ATPase activity of myofibrils was observed, probably related to changes in myosin light chains. Presently the changes in ATPase activity and in ventricular contractility do not still have a clear molecular basis in humans.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Heart and hypertension. 252 4

Rats treated with the alkaloid monocrotaline developed right ventricular hypertrophy with a left:right ventricle weight ratio of 1.35 +/- 0.10 (mean +/- s.e.m., n = 25) compared with 3.83 +/- 0.40 (n = 14) in diet-matched controls (P less than 0.001). Urine volume and sodium content were reduced and body water increased consistent with heart failure. In 10 out of 26 treated rats pleural, pericardial or peritoneal effusions were present. Urine norepinephrine content was significantly raised (P less than 0.02) but epinephrine was unchanged. Plasma norepinephrine levels were raised though not significantly. Myocytes isolated from the right ventricle had a reduced myosin Ca2+-activated ATPase (P less than 0.05) activity and a shift towards slower V2 and V3 myosin isoforms. There was no decrease in maximum contraction amplitude with calcium or isoproterenol in either left or right ventricular cells of treated rats. Right ventricular cells from treated rats showed a reduced rate of contraction in maximum isoproterenol (P less than 0.05) and a significant rightward shift in PD2 (P less than 0.05) representing a two-fold increase in EC50 for isoproterenol compared with right ventricular cells from control animals. There was no shift in EC50 for isoproterenol in left ventricle cells. In parallel experiments, myocytes isolated from both ventricles of rats treated with isoproterenol for one week showed a rightward shift of more than 50-fold in the isoproterenol concentration-response curve and a depressed response to maximum isoproterenol. In the rat monocrotaline model of right-sided cardiac hypertrophy and failure, changes in sensitivity to beta-adrenoceptor agonists are slight, and present only in the right ventricle. The lack of change in the left ventricle seems to suggest that this functional desensitisation is not a consequence of raised circulating catecholamines.
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PMID:Isoproterenol sensitivity of isolated cardiac myocytes from rats with monocrotaline-induced right-sided hypertrophy and heart failure. 255 26

Left ventricular hypertrophy (LVH) was produced in guinea pigs after aortic stenosis (AS). The percentage of LVH in AS was determined by normalizing left ventricular (LV) weight by the mean LV weight of sham-operated controls (n = 12). After 3 weeks of cardiac overload, a mild LVH (30 +/- 3%) was induced in 17 animals and a relatively severe LVH (56 +/- 3%) was induced in 7 animals. LV papillary muscles were rapidly excised for mechanical studies. No significant differences were observed between control and mild hypertrophy groups. In contrast, a marked decrease in myocardial performance was seen in the more severe cardiac hypertrophy group and was expressed as a percentage of sham-operated levels (Vmax, 22%; active isometric force/mm2, 23%; +dF/dt max/mm2, 26%). Relaxation in this group was still more impaired than contraction (peak lengthening velocity, 14%; -dF/dt max/mm2, 19%). Moreover, the load sensitivity of relaxation was present in both sham-operated controls and mild hypertrophy but almost disappeared in more severe hypertrophy. Isometric relaxation was delayed in the latter group, as shown by the 15% increase of the half-time of the decline of isometric relaxation (t 1/2). On the other hand, acute hypoxia (95% N2-5% CO2 for 20 minutes) also induced a fall in contractility and the disappearance of the load sensitivity of relaxation but with a 67% decrease of t 1/2. Thus, the mechanical analysis of relaxation allows the effects of chronic overload in relatively severe cardiac hypertrophy to be separated from those of acute hypoxia. Moreover, in severe cardiac hypertrophy, the impairment of the load sensitivity of relaxation with increased t 1/2 strongly suggests alterations of the sarcoplasmic reticulum, especially since the moderate decrease in the myofibrillar ATPase activity, which has been observed previously in guinea pig pressure overload, cannot account completely for the marked fall in myocardial performance.
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PMID:Major alterations in relaxation during cardiac hypertrophy induced by aortic stenosis in guinea pig. 295 48


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