UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of iontophoretically applied Na+-, K+-dependent adenosinetriphosphatase (Na+,K+-ATPase) (EC 3.6.1.3) inhibitors (ouabain, digitoxin, digitoxigenin, strophanthin K, strophanthidin, thevetin A and B, ethacrynate, and harmaline) on the depression of rat cerebral cortical neurones by noradrenaline, 5-hydroxytryptamine, and histamine have been studied. The inhibitors antagonized depressions of spontaneously active neurones evoked by these amines, but not those evoked by gamma-aminobutyric acid, adenosine, adenosine 5'-monophosphate, or calcium. The antagonistic potencies of the various inhibitors appeared to be proportional to their known potencies as inhibitors of Na+, K+-ATPase. The data therefore support the hypothesis that amines depress central neurones by activating an electrogenic sodium pump.
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PMID:Antagonism of biogenic amine-induced depression of cerebral cortical neurones by Na+, K+-ATPase in inhibitors. 14 20

Defective potassium excretion with clinical acidosis, associated with fixed moderate sodium wasting, has been found to be a common abnormality in lead nephropathy. Lead poisoning has been shown by others to be associated with depression of the renin-aldosterone system and of sodium and potassium activated adenosinetriphosphatase (ATPase). Since these hormonal defects may contribute to the hyperkalemia and are reversible, lead poisoning should be treated aggressively. Management also requires proper regulation of dietary sodium, correction of acidosis, limitation of dietary potassium, and minimal use of antihypertensive agents, as well as the administration of allopurinal for urate control.
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PMID:Hyperkalemia and acidosis in lead nephropathy. 94 Oct 56

Because Na(+)-Ca2+ exchange and Ca2+ pump are thought to play a role in sarcolemmal Ca2+ movements, we examined the Na(+)-dependent Ca(2+)-uptake and ATP-dependent Ca(2+)-uptake activities in failing heart after myocardial infarction in rats. The left coronary artery was ligated, and the viable left ventricle was used 4, 8, and 16 wk later; sham-operated animals served as controls. Increased left ventricular diastolic pressure and decreased positive and negative change in pressure over time were observed in experimental animals at 4, 8, and 16 wk; these changes were associated with accumulation of fluid in the abdominal cavity. The sarcolemmal Na(+)-dependent Ca2+ uptake was depressed in 4-, 8-, and 16-wk experimental hearts. The decrease in sarcolemmal Na(+)-dependent Ca2+ uptake in failing hearts was seen when the activity was assayed either as a function of time or Ca2+ concentration; a depression of maximal velocity without any change in activity constant for Ca2+ was observed. No alteration in the Ca2+ pump (ATP-dependent Ca2+ accumulation and Ca(2+)-stimulated adenosinetriphosphatase) activities was evident in the 4-, 8-, and 16-wk experimental groups. These data suggest that changes in the Na(+)-dependent Ca2+ handling by the sarcolemmal membrane may be associated with contractile abnormalities in this model of congestive heart failure.
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PMID:Sarcolemmal calcium transport in congestive heart failure due to myocardial infarction in rats. 131 26

The characterization of unique responses of immature hearts to ischemic injury is important in devising better methods of myocardial protection for neonatal cardiac operations. Two end-points used to assess the vulnerability of immature myocardium to ischemic injury, namely, the time between onset of ischemia to the beginning of contracture and the functional recovery after reperfusion, had yielded results that appeared to be contradictory. In this study both the immature and adult rabbit hearts were used to study these two end-points in the same model, to assess their relationships and physiologic implications. Our data confirmed that, although immature hearts have greater capacity than adult hearts for functional recovery after identical periods of ischemic insult, their times to ischemic contracture are not prolonged, as could have been expected. A negative correlation between the rise in resting myocardial tension (i.e., contracture) and the recovery of ventricular function after reperfusion was noted both in the neonatal and in the adult hearts. However, reperfusion undertaken after "the onset of contracture" showed that the ventricle could still regain a measure of its function, which indicates that the "irreversibility" in global ventricular function is a gradual and progressive phenomenon. Biochemical studies of sarcoplasmic reticular calcium-adenosinetriphosphatase activity indicated that the immature myocardium has a significantly lower activity of this enzyme. Further depression of this enzyme activity after ischemia is seen in the immature hearts and may in part explain the earlier onset of contracture reported. A unifying concept to explain these unique responses of neonatal hearts to ischemia is proposed, based on the immaturities of certain key enzymes. The implications of these findings in the development of better protective techniques are also discussed.
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PMID:Unique responses of immature hearts to ischemia. Functional recovery versus initiation of contracture. 153 57

To determine the effects of chronic nonocclusive coronary constriction on cardiac hemodynamics, myocardial structure, and contractile protein enzyme activity, the left coronary artery was narrowed in rats, and measurements of ventricular pump function, extent and localization of tissue damage, and myofibrillar Mg2+ and Ca2+ myosin adenosinetriphosphatase (ATPase) activities were measured 3 mo later. In the presence of coronary artery stenosis averaging 56%, two different degrees of depression in global cardiac performance were identified, and the animals were divided in two groups. In the first group, left ventricular end-diastolic pressure (LVEDP) was increased and LV+ and/or--the first derivative of LV pressure (dP/dt) were decreased, whereas in the second group end-diastolic and peak systolic LV pressures, LV+ and -dP/dt and right ventricular dynamics were all impaired. Thus left ventricular dysfunction and failure occurred with coronary narrowing. Structurally, multiple foci of replacement fibrosis were found across the left ventricular wall, but the number of these lesion profiles was 2.6-fold larger in failing animals than in rats with cardiac dysfunction. Biochemically, Mg(2+)-ATPase activity in myofibrils and Ca2+ myosin ATPase were not altered biventricularly. On the other hand, a shift from V1 to V3 myosin isoenzymic content occurred in the failing left ventricle. In conclusion, the late impairment in ventricular pump function associated with prolonged coronary artery stenosis appears to be sustained more by the magnitude of myocardial damage than by defects in contractile protein enzyme activity.
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PMID:Long-term coronary stenosis in rats: cardiac performance, myocardial morphology, and contractile protein enzyme activity. 163 51

The phenomenon of postexcitatory depression (PED) of baroreceptors is related to augmentation of Na(+)- K(+) -adenosinetriphosphatase (ATPase) activity. To provide additional evidence to support the hypothesis that dogs with chronic heart failure have augmented Na(+) -K(+) -ATPase activity in baroreceptor endings, the present study was undertaken to compare the duration of the PED of carotid sinus baroreceptors from normal and heart failure dogs. The effect of perfusion of the carotid sinus with a cardiac glycoside was also investigated. Eight normal and six dogs with experimental heart failure induced by ventricular pacing (250 beats/min for approximately 5 wk) were used in this study. Dogs were anesthetized, and the carotid sinus was isolated and perfused. Single baroreceptor units from the carotid sinus nerve were recorded, and the duration of the PED was measured. The relationship between the magnitude of the pressure steps and the duration of PED was determined. Duration of PED was significantly prolonged in the heart failure group at each pressure step (range from 2.7 to 9.0 s compared with 0.5 to 2.9 s in normal dogs). For the relationship between the duration of the pressure step and duration of PED, the heart failure dogs exhibited a markedly longer duration of PED than the normal dogs (range from 2.3 to 12.4 s compared with 0.5 to 5.3 s in normal dogs). Perfusion of the carotid sinus with very low doses of ouabain decreased the duration of PED in the heart failure dogs; however, there was no such effect in the normal dogs. These data are consistent with the view that baroreceptor membranes have increased Na(+) -K(+) -ATPase activity in heart failure(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Postexcitatory depression of baroreceptors in dogs with experimental heart failure. 184 69

Reperfusion of rabbit hearts after 15 min of global ischemia at 37 degrees C depressed developed pressure by 36% (myocardial stunning). Changes in myofilament function were investigated as causes of this depression. Kinetic analysis of the effects of stunning on myofibrillar catalyzed ATP hydrolysis showed that stunning lowered Michaelis constant (Km) slightly and left maximal enzyme reaction velocity unaltered in the stunned myofilaments. The myofilament end of the creatine kinase (CK) shuttle was also found to be unaffected in the stunned myofibrils. The Km ADP for myofibrillar CK from control and stunned hearts was 60.45 +/- 3.45 and 68.04 +/- 2.42 microM, respectively, and the CK activity at 100 microM ADP was 0.63 +/- 0.08 and 0.67 +/- 0.04 IU/mg myofibrillar protein from control and stunned hearts, a rate three times greater than the myofibrillar adenosinetriphosphatase (ATPase) rate and a rate sufficient to deliver ATP to the myofilaments. Myofilament Ca2+ sensitivity was assessed by measuring Ca2(+)-dependent myofibrillar Mg2(+)-ATPase activity at free [Ca2+] ranging from 10 nM to 32 microM and [Mg.ATP] of 0.8, 1.6, and 3.2 mM. The sensitivity of myofilaments to activation by Ca2+ was unaltered in the myofibrils isolated from stunned hearts. It is concluded from these analyses that the depression of pressure development observed in stunned hearts is not due to a defect in myofilament function.
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PMID:Effect of global myocardial stunning on Ca2(+)-sensitive myofibrillar ATPase activity and creatine kinase kinetics. 214 2

The mechanical and energetic consequences of long-term pressure-overload (POL) hypertrophy have been investigated in rabbits and compared with sham-operated controls (SOC). Hypertrophy was induced by banding the pulmonary artery of young rabbits and examining the mechanical, biochemical, and energetic properties of the compensated heart 10-16 wk later. Experiments were undertaken on papillary muscles from the hypertrophic hearts. At 27 degrees C and a stimulus frequency of 1 Hz there was a modest depression of peak stress development but no significant changes in isometric rise times and one-half widths or in isotonic maximum velocity of shortening and power output. The inverse relationship between peak stress and cross-sectional area (CSA) was practically identical in the POL and SOC groups. Both polarographic and myothermic investigations were made on papillary muscles. Hypertrophy nearly halved basal metabolism, and in isometric contractions there was increased isometric economy due to a combination of a lower stress cost and a reduced activation heat. Hypertrophy did significantly depress the extent of shortening leading to a reduced work output per beat. In isotonic contractions the reduced work output was offset by a reduced energy output such that there was no significant change in suprabasal mechanical efficiency. Biochemical studies showed that the transition of myosin isoenzymes to the V3 form was essentially complete in the POL group, but that the SOC group was also predominantly V3 when the animals were killed. There was a significant 30% decline in the Ca2(+)-stimulated adenosinetriphosphatase activity of the sarcoplasmic reticulum. It is concluded that in long-term compensated hypertrophy of rabbit hearts there are only a few mechanical and energetic differences between control and hypertrophic muscles. The changes that can be detected appear to predominantly reflect disturbances in cellular Ca2+ regulation.
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PMID:Mechanical, energetic, and biochemical changes in long-term pressure overload of rabbit heart. 214 3

Intracellular pH and [Na+] in the heart are regulated by the sarcolemmal membrane Na(+)-H+ exchange pathway. No data are currently available regarding the adaptation of this system to pathological conditions in the heart. Because ionic interactions with the heart are altered in cardiomyopathy during chronic experimental diabetes, it was hypothesized that Na(+)-H+ exchange may become abnormal. In addition, the effects of treating diabetic rats with daily injection of L-propionylcarnitine were investigated to determine whether alterations in lipid metabolism may be involved in any potential changes in ion transport. Rats were injected with streptozotocin (65 mg/kg) and killed 8-10 wk later, and sarcolemmal membrane vesicles were isolated from pooled ventricles. Significant depressions in Na(+)-K(+)-adenosinetriphosphatase (ATPase) activity and Na(+)-Ca2+ exchange were observed in the diabetic preparations in comparison to control. L-Propionylcarnitine treatment of the diabetic rats partially normalized these activities. A striking depression in cardiac sarcolemmal Na(+)-H+ exchange was observed in the diabetic animals in comparison to control, and this was not a result of a nonspecific increase in membrane permeability. L-Propionylcarnitine treatment of the diabetic rats did not improve sarcolemmal Na(+)-H+ exchange.
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PMID:Na(+)-H+ exchange in cardiac sarcolemmal vesicles isolated from diabetic rats. 215 33

This study examined the effects of acute high-intensity exercise on the rate and capacity of Ca2+ uptake and Ca2+-stimulated adenosinetriphosphatase (ATPase) activity of the sarcoplasmic reticulum and the reversibility of these effects. Thoroughbred horses were run at maximal O2 uptake on a high-speed treadmill until fatigued. Muscle temperatures and biopsy samples were collected at rest, immediately after exercise, and 30 and 60 min after exercise. Blood samples were collected at rest and 5 min after exercise. Muscle and blood (lactate concentration) were three- and fivefold greater than pre-exercise values. Muscle temperature and pH immediately after post-exercise were 43 degrees C and 6.55, respectively, but approached rest values by 60 min after exercise. The initial rate and maximal capacity of Ca2+ uptake of muscle homogenates and isolated sarcoplasmic reticulum were significantly depressed immediately after exercise. This depression was paralleled by decreased activity of the Ca2+-stimulated ATPase. However, both Ca2+ uptake (rate and capacity) and Ca2+4-ATPase activity had returned to normal by 60 min after exercise. These findings demonstrate that changes in sarcoplasmic reticulum function after high-intensity exercise may be induced but not sustained by local changes in muscle pH and/or temperature.
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PMID:Altered sarcoplasmic reticulum function after high-intensity exercise. 253 96

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