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)

Addition of bovine serum albumin to state 4 mitochondria results in a depression of the proton leak and of the resting respiration of 70 and 25%, respectively. The conductance membrane potential diagram, both in the ohmic and in the non-ohmic region, shows that in the presence of bovine serum albumin the level of ohmic conductance is lowered while that of non-ohmic conductance is increased toward higher delta psi values. The same effect is observed during operation of the different proton pumps. Addition of chloroform affects the conductance membrane potential diagram in the following manner: there is no effect in the ohmic region with all pumps, while there is an effect in the non-ohmic region either at site III or at sites II plus III but not at site II. This suggests a possible effect of chloroform at the level of the cytochrome oxidase proton pump. During titration with oligomycin of the ATPase proton pump the conductance potential diagram shows a region of non-ohmicity only in the presence but not in the absence of an ATP-regenerating system. Protonophoric uncouplers such as carbonyl cyanide p(trifluoromethoxy)phenylhydrazone and intrinsic uncouplers such as chloroform have different effects on the relationship between rates of charge translocation and of oxygen consumption, and thus on the pump stoichiometries, in that the slope of the diagram is modified by the latter but not by the former. The differential effects of protonophores and of intrinsic uncouplers on the stoichiometries have been analyzed by computer simulations and represent an additional criterion to distinguish between extrinsic and intrinsic mechanisms of uncoupling.
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PMID:Flux ratios and pump stoichiometries at sites II and III in liver mitochondria. Effect of slips and leaks. 184 85

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

In order to understand the role of carnitine metabolites in the genesis of cellular dysfunction and damage due to myocardial ischemia, the effects of 1-100 microM L-carnitine, acetylcarnitine, propionylcarnitine, and palmitoylcarnitine were investigated on rat heart sarcolemmal, sarcoplasmic reticular, and mitochondrial ATPase activities. Palmitoylcarnitine, unlike acetylcarnitine, propionylcarnitine and carnitine, produced marked inhibitory actions on sarcolemmal Na,K-ATPase and Ca2(+)-stimulated ATPase, as well as sarcoplasmic reticular Ca2(+)-stimulated ATPase activities; Na,K-ATPase was most sensitive. Although palmitoylcarnitine, unlike carnitine or its short-chain fatty-acid derivatives, also depressed sarcolemmal Ca2+ ATPase or Mg2+ ATPase, sarcoplasmic reticular Mg2+ ATPase, and mitochondrial Mg2+ ATPase, mitochondria were less sensitive in comparison to other organelles. Myofibrillar Ca2(+)-stimulated ATPase was slightly inhibited by very high concentrations of palmitoylcarnitine only. It is suggested that the observed depression of the sarcolemmal Na(+)-pump system by low concentrations of long-chain acyl derivatives of carnitine may contribute towards the pathogenesis of arrhythmias due to myocardial ischemia. Furthermore, the inhibition of Ca2(+)-pump mechanisms in the sarcolemmal and sarcoplasmic reticular membranes by relatively high concentrations of palmitoylcarnitine may result in the occurrence of intracellular Ca2+ overload and subsequent cell damage, as well as cardiac dysfunction due to myocardial ischemia.
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PMID:Effects of some L-carnitine derivatives on heart membrane ATPases. 185 32

Epidemiologic studies have shown that insulin is a risk factor for coronary heart disease (CHD). Clinical studies have also demonstrated positive correlations between insulin and blood pressure, triglycerides, total cholesterol, fibrinogen, and plasminogen activator inhibitor. Moreover, there is an inverse correlation between insulin and high-density lipoprotein (HDL). These studies have provided evidence in support of the biologic plausibility of epidemiologic observations, but they have not clearly established insulin's role in the pathogenesis of human cardiovascular diseases (CVD) such as hypertension. In fact, there is considerable evidence that insulin resistance (abnormal nonoxidative glucose disposal), not hyperinsulinemia, is the primary insulin-related abnormality in human hypertension, and that hyperinsulinemia occurs as a response to insulin resistance. Skeletal muscle appears to be the primary site of insulin resistance in essential hypertension, although other organs, such as the kidneys and liver--key sites for cell and water homeostasis and lipoprotein regulation, respectively--may respond normally to insulin. Adipocytes also appear to be a site of insulin resistance. Thus, the putative interrelationship between hyperinsulinemia and insulin resistance, on the one hand, and with blood pressure and lipoproteins, on the other, is a complex one and may involve organ-specific insulin resistance. Altered cation transport is one of several mechanisms by which insulin resistance might raise blood pressure. The Na+, K(+)-ATPase and Ca(2+)-ATPase pumps are insulin sensitive. Thus, when insulin resistance is present, the activity of these pumps in the smooth muscle of the arterial wall might be reduced. This would lead to an intracellular accumulation of sodium and calcium, thereby sensitizing the vascular wall to pressor substances. Moreover, secondary hyperinsulinemia will occur, and insulin has been shown to stimulate sympathetic nervous system activity and to increase renal tubular absorption of sodium. Insulin is also a growth factor and therefore might have a trophic effect on the vessel wall, one that could initiate and/or sustain hypertension as well as atherosclerosis. Abnormal lipoprotein metabolism is yet another possible explanation for the accelerated atherosclerosis that has been observed in persons with abnormal carbohydrate tolerance and insulin resistance. Hyperinsulinemia and insulin resistance both play a role in the expression of elevated very-low-density lipoprotein (VLDL) and low-density lipoprotein (LDL) levels as well as in the depression of HDL levels. Coronary risk reduction has been disappointing when blood pressure has been lowered with treatment regimens based on thiazide diuretics and/or beta blockers. Thiazides and some beta blockers may further impair tissue insulin sensitivity and often cause blood lipoprotein abnormalities.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Epidemiologic and clinical aspects of insulin resistance and hyperinsulinemia. 186 24

Oxygen free radicals have been implicated as mediators of cellular injury in ischemia-reperfusion. Since intracellular Ca(2+)-overload has been considered to play a crucial role in ischemia-reperfusion injury, this study was undertaken to examine the effects of oxygen free radicals on Ca(2+)-stimulated Mg(2+)-dependent ATPase activities and ATP-dependent Ca2+ accumulation in rat cardiac sarcolemmal membranes in vitro. Isolated rat heart sarcolemmal membranes were incubated with xanthine (X) + xanthine oxidase (XO) and assayed for Ca(2+)-pump activities. X + XO inhibited the Ca(2+)-pump activities in a time-dependent manner; a significant inhibition of Ca(2+)-stimulated ATPase activity was seen after one min of incubation. Superoxide dismutase showed a protective effect on depression in Ca(2+)-pump activities due to X + XO. To understand the involvement of sulfhydryl groups changes in causing depression of Ca(2+)-pump activities, the effects of oxygen free radicals on heart sarcolemmal sulfhydryl groups were also investigated. Heart sarcolemmal sulfhydryl groups were decreased by X + XO in a time-dependent manner. Superoxide dismutase showed a protective effect on sulfhydryl group depression caused by X + XO. N-ethylmaleimide, a sulfhydryl reagent, showed inhibitory effect on Ca(2+)-pump activities both in a time-, and a dose-dependent manner; dithiothreitol and cysteine prevented changes in Ca(2+)-pump activities caused by N-ethylmaleimide. The inhibitory effect of X + XO on Ca(2+)-pump activities were also prevented by the addition of dithiothreitol or cysteine. A significant correlation between changes in sarcolemmal Ca(2+)-stimulated ATPase activity and sarcolemmal sulfhydryl groups was seen.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of heart sarcolemmal Ca(2+)-pump activity by oxygen free radicals. 202 66

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

Effects of oxygen free radicals on Ca2+/Mg2+ ATPase and ATP-independent Ca2(+)-binding activities were examined in rat heart sarcolemma. Membranes were incubated with different oxygen radical generating media such as xanthine + xanthine oxidase, hydrogen peroxide, and hydrogen peroxide + Fe2+. In the presence of xanthine + xanthine oxidase, Ca2+ ATPase activity was stimulated and this effect was prevented by the addition of superoxide dismutase. Hydrogen peroxide also showed a significant increase in Ca2(+)-ATPase activity in a dose-dependent manner and this effect was blocked by catalase. On the other hand, a combination of hydrogen peroxide + Fe2+ decreased Ca2(+)-ATPase activity; this depression was prevented by the addition of D-mannitol. The observed change in Ca2(+)-ATPase activity due to oxygen free radicals was associated with changes in Vmax, whereas Ka remained unaffected. Both xanthine + xanthine oxidase and hydrogen peroxide increased whereas, hydrogen peroxide + Fe2+ inhibited the ATP-independent Ca2(+)-binding activities. It is suggested that oxygen free radicals may influence Ca2+ movements in the cell by altering the Ca2+/Mg2+ ATPase and Ca2(+)-binding activities of the membrane and these effects may be oxygen-radical species specific.
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PMID:Alterations in heart sarcolemmal Ca2(+)-ATPase and Ca2(+)-binding activities due to oxygen free radicals. 215 97

Cat soleus motor nerve terminals, after high frequency conditioning, generate a post-tetanic repetition (PTR) which leads to a post-tetanic (PTP) of the muscle response. This property enables quantitative assessment of enhancement or depression of this nerve terminal excitability in vivo. The present study focuses on ionic mechanisms underlying the PTRs produced in this neuromuscular system either by high frequency stimulation or edrophonium. Ouabain was used as a specific probe for inhibition of Na(+)-K+ ATPase and its known consequences on Na+ and Ca2+ translocation. Ouabain pretreatment doubled the duration over which single stimuli, following either high frequency or edrophonium conditioning produced PTR. Ouabain in the doses used had no effect per se but as a function of dose augmented the frequency dependent responses. This pointed to Na+ loading of nerve terminals via high frequency stimulation plus ouabain inhibition of Na(+)-K+ ATPase. Ouabain potentiation of PTR responses evidently depends on exchange of intra-terminal sodium for external calcium. Thus, calcium entry blockers, Mn2+, and Co2+ suppressed or abolished the potentiations both before and after ouabain. Diphenylhydantoin, a Na+ and Ca2+ blocker, acted similarly. The effects of stimulation frequency, ouabain and the sequence of events leading to PTR in the soleus neuromuscular system appeared in general no different from those derived from the many in vitro microphysiologic studies of this phenomenon. Thus, EPPs were augmented and prolonged. It was concluded that intracellular Ca2+ is critical for regulating the stability of systems in which repetitive firing is both a normal and abnormal function.
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PMID:The interactions of ouabain with post-tetanic and facilitatory drug potentiations at cat soleus neuromuscular junctions in vivo. 216 59

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