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

cAMP-dependence of synaptic depression and facilitation was investigated in functionally identified synaptic connection in the snail. It was found that 5 mM imidazole (phosphodiesterase activator) as well as 2 mM tolbutamide (inhibitor of cAMP-dependent protein kinase) do not change the rate of EPSPs depression during rhythmic (0.1 Hz) nerve stimulation, and do not affect facilitation. But treatment with both these drugs decreases EPSPs amplitude. Possibility of cAMP-dependent modulation of synaptic effectiveness is discussed.
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PMID:[The role of cyclic adenosine monophosphate in simple forms of plasticity in the edible snail]. 247 62

Calmodulin-dependent phosphodiesterase (CaM-PDE) is selectively expressed in specific neuronal populations in adult rat brain. In cerebellar cortex, it is expressed at high levels in Purkinje cells (soma and dendrites). Climbing fiber ablation by intraperitoneal injections of 3-acetylpyridine resulted in a selective depression of cerebellar CaM-PDE expression using Western immunoblot procedures; neither calcineurin (calmodulin-dependent protein phosphatase) nor other calmodulin binding proteins, detected by biotinylated calmodulin overlays, were affected. Immunocytochemical staining of cerebellum revealed a loss of detectable CaM-PDE immunoreactivity in Purkinje cells, with no appreciable change in calcineurin immunoreactivity. Cerebral cortex was examined as a control for a direct effect of 3-acetylpyridine on CaM-PDE expression, independent of climbing fiber deafferentation. There were no detectable changes in CaM-PDE or calcineurin immunoreactivity in cortical pyramidal cells, and no changes were detected, either in Western blot analyses for CaM-PDE or calcineurin or in biotinylated calmodulin overlays. These data suggest that CaM-PDE expression in Purkinje cells is regulated transsynaptically by climbing fiber inputs.
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PMID:Evidence for transsynaptic regulation of calmodulin-dependent cyclic nucleotide phosphodiesterase in cerebellar Purkinje cells. 274 32

The inner ear forms from paired ectodermal primordia that lie to either side of the developing hindbrain. Initially each primordium forms a shallow depression in the ectodermal surface. Invagination to form an otic pit coincides with the formation of several deep folds in the epithelial surface. An initial fold appears parallel to the embryonic axis and at the junction of the rhombencephalon with somitomeric mesoderm. This is followed by formation of cranial and caudal folds perpendicular to the axis and minor folds that are within the pit formed by earlier folding. The central region of the otic primordium remains in close apposition to the lateral surface of the neural tube during the process of fold formation, until the otic pit becomes quite deep. At that time, mesenchymal cells penetrate between the two layers. Experimental analysis of invagination supports the conclusion that otic invagination is controlled differently from that of similar organ primordia, such as the eye and thyroid. Whereas these other primordia can be stimulated to undergo normal morphogenetic shape changes precociously by treatments that presumably activate motile processes in the cytoskeleton, the same conditions have little effect on the otic placode. Similarly, neither inhibitors of calcium transport nor inactivators of calmodulin activity prevent otic pit formation, while these drugs block invagination of other primordia. These results suggest that otic invagination may be caused by changes in the surrounding tissues rather than by an activation of motility within the primordium.
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PMID:Invagination of the otic placode: normal development and experimental manipulation. 276 4

Adrenergic arrhythmias were induced in isolated rat hearts with epinephrine in a concentration of 5.10(-5) M in the perfusing solution. The rhythm disturbance was accompanied by a pronounced depression of contractility. It was found that the preliminary administration of the calmodulin blocker trifluoperazine (10(-6) M) decreased the duration of arrhythmias and the latency of their development, the contractility remaining at a higher level than in control. Verapamil administered into the perfusing solution did not significantly affect the latency of arrhythmias and reduced the duration of arrhythmias and the cardiotonic effect of epinephrine to a lesser extent than trifluoperazine. The mechanism is under discussion, by which the calmodulin blocker has a more pronounced cardioprotective antiarrhythmic effect than the Ca-channel blocker.
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PMID:[Prevention of adrenaline-induced arrhythmia by a calmodulin blocker, trifluoroperazine]. 280 3

The present study examined changes in the levels of plasma catecholamines and myocardial histamine, guanylate cyclase activity, cyclic nucleotides, calcium, calmodulin, and norepinephrine following chronic administration of doxorubicin (DXR). In addition, changes in myocardial alpha 1-adrenergic receptor density and dissociation constant were measured. Rats received DXR (2 mg/kg) or vehicle weekly by the SC route for 2, 4, 8, and 13 weeks. Rats were sacrificed one week after their last dose. One group of rats treated for 13 weeks was sacrificed at 19 weeks, six weeks after the last dose. Heart histamine was unchanged at 3, 5, 9, and 19 weeks, yet at 14 weeks it was significantly elevated in DXR-treated rats over controls. Cardiac calcium, norepinephrine, and cyclic GMP levels were unchanged throughout the course of the study. Cardiac cAMP and calmodulin levels were unchanged at 3, 5, 9, and 14 weeks. At 19 weeks in DXR-treated rats, cAMP was depressed while calmodulin was elevated. Plasma catecholamines and myocardial guanylate cyclase activity examined at 14 weeks were unchanged. In contrast, alpha 1 receptor density examined at 14 weeks in DXR-treated rats was significantly depressed while the dissociation constant was unchanged. Changes in cAMP and calmodulin are suggestive of a redistribution of calcium, although total levels of calcium were unchanged. The depression of cAMP indicates damage to the membrane bound enzyme, adenylate cyclase, and that the membrane interaction of doxorubicin appears to be an integral part of the biochemical mechanism of its toxicity.
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PMID:Effects of chronic administration of doxorubicin on myocardial alpha-adrenergic receptors, histamine, cyclic nucleotides, calcium, norepinephrine, calmodulin, and guanylate cyclase activity, and plasma catecholamines in rats. 289 92

1. Since it has been demonstrated that trifluoperazine (TFP) increases the affinity for Ca2+ of troponin C as well as calmodulin, the effect of TFP was examined on the Ca2+-induced tension in mechanically skinned fibres isolated from frog skeletal muscle and on Ca2+-dependent ATPase activity of myofibrils from similar frog skeletal muscle. 2. Lower concentrations of TFP increased the Ca2+ sensitivity of myofibrils without a change in the maximum tension, giving rise to a less steep tension-pCa relationship. This effect was reversible although thorough washes were necessary. The drug also enhanced myofibrillar ATPase activity, not only at low Ca2+ concentrations but also at saturating high Ca2+ concentrations. The increased affinity of troponin C for Ca2+ is difficult to accept as the sole explanation for the stimulatory effect of TFP. 3. Half of the maximum stimulating effect was obtained between 10 and 30 microM-TFP, which is similar to the reported apparent inhibition constant (Ki) for calmodulin-dependent enzyme reactions. However, the stimulating effect of TFP cannot be attributed to its inhibition of calmodulin because of the finding that this effect was independent of Ca2+. Earlier published results (e.g. Klee & Vanaman, 1982) also support this conclusion. 4. Studies on myofibrillar ATPase activity suggest that the stimulating effect of TFP is not identical in its underlying action with those of caffeine and quercetin, which are also known as Ca2+-sensitizing drugs, having a similar eventual effect on tension development. 5. Higher concentrations of TFP decreased the maximum tension induced by high concentrations of Ca2+, while enhancing the tension in the presence of low concentrations of Ca2+. Analogous findings for ATPase activity were also made. TFP concentration for half the maximum depression was about 10 times higher than that for half the maximum stimulation. This suggests that different site(s) are involved in the stimulatory and inhibitory effects of TFP, although there may be some sites in common. 6. Discussion favours the stimulating effects of TFP as being caused considerably by the affected molecular interactions among myosin, actin, tropomyosin and troponin.
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PMID:Increase by trifluoperazine in calcium sensitivity of myofibrils in a skinned fibre from frog skeletal muscle. 297 64

To characterize endogenous control mechanisms for human erythrocyte membrane Ca2+-ATPase ("calcium pump") activity, we studied the effect of changes in blood glucose concentration in vivo within the physiologic range on Ca2+-ATPase activity in red cells. Red cells obtained in the course of induced hyperglycemia were also studied to determine susceptibility of membrane Ca2+-ATPase to stimulation in vitro by thyroid hormone and calmodulin, both of which have been shown previously to enhance Ca2+-ATPase activity. Oral glucose administration (75 g) to eight healthy, adult subjects induced predictable increases in concentrations of blood glucose and immunoreactive insulin. Basal levels of activity of Ca2+-ATPase in red cells obtained after glucose ingestion fell 55% (P less than 0.025) by 30 min after glucose with recovery of enzyme activity to levels not significantly different from basal by 60 min. Activity of red cell Ca2+-ATPase at time zero was significantly stimulated in vitro by thyroxine (T4, 10(-10) M), triiodo-L-thyronine (T3, 10(-10) M), and calmodulin (100 ng/mg membrane protein). In vivo glucose administration led to depression of red cell enzyme responsiveness in vitro to T4 and T3; recovery from this effect did not occur by 120 min after oral administration of glucose. Calmodulin responsiveness of the enzyme in vitro was less significantly reduced in red cells obtained after glucose ingestion. Intravenous (i.v.) glucose administration (20 g) to five subjects also led to decreased basal enzyme activity (61% of fasting level at 20 min). A significant decrease in response of enzyme to T4 was achieved by 8 min after glucose administration (P less than 0.02), with recovery by 60 min.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of in vivo glucose administration on human erythrocyte Ca2+-ATPase activity and on enzyme responsiveness in vitro to thyroid hormone and calmodulin. 298 51

The effect of scavengers of oxygen radicals on canine cardiac sarcoplasmic reticulum (SR) Ca2+ uptake velocity was investigated at pH 6.4, the intracellular pH of the ischemic myocardium. With the generation of oxygen radicals from a xanthine-xanthine oxidase reaction, there was a significant depression of SR Ca2+ uptake velocity. Xanthine alone or xanthine plus denatured xanthine oxidase had no effect on this system. Superoxide dismutase (SOD), a scavenger of .O2-, or denatured SOD had no effect on the depression of Ca2+ uptake velocity induced by the xanthine-xanthine oxidase reaction. However, catalase, which can impair hydroxyl radical (.OH) formation by destroying the precursor H2O2, significantly inhibited the effect of the xanthine-xanthine oxidase reaction. This effect of catalase was enhanced by SOD, but not by denatured SOD. Dimethyl sulfoxide (Me2SO), a known .OH scavenger, completely inhibited the effect of the xanthine-xanthine oxidase reaction. The observed effect of oxygen radicals and radical scavengers was not seen in the calmodulin-depleted SR vesicles. Addition of exogenous calmodulin, however, reproduced the effect of oxygen radicals and the scavengers. The effect of oxygen radicals was enhanced by the calmodulin antagonists (compounds 48/80 and W-7) at concentrations which showed no effect alone on Ca2+ uptake velocity. Taken together, these findings strongly suggest that .OH, but not .O2-, is involved in a mechanism that may cause SR dysfunction, and that the effect of oxygen radicals is calmodulin dependent.
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PMID:Calmodulin participation in oxygen radical-induced cardiac sarcoplasmic reticulum calcium uptake reduction. 303 9

Models of ischemic and reperfusion arrhythmias were reproduced in isolated rat hearts by means of the ligation and subsequent reocclusion of the left descending coronary artery. The introduction of trifluoperazine (TFP, 10(-6) M) and verapamil (2.5 X 10(-8) M) into the perfusion medium produced a 20% depression of contractility in aerobic conditions; an additional depression of contractility at 20 min of ischemia and 10 min of reperfusion was 40 and 50%, respectively, for TFP and about the same for verapamil, as compared to the control. Antiarrhythmic effect of TFP was much higher, as compared to that of verapamil. The calmodulin blocker reduced fivefold total duration of arrhythmias, whereas the calcium-incorporation blocker only reduced it by 2.5 times. The antiarrhythmic effect of TFP was even more marked, as compared to verapamil, at reperfusion: TFP reduced total duration of ventricular tachycardias and ventricular fibrillations by 2 and 35 times, respectively, while verapamil had no effect on those types of arrhythmia. A possible mechanism of antiarrhythmic action of the calmodulin blocker TFP is discussed.
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PMID:[Prevention of ischemic and reperfusion arrhythmias using the calmodulin blocker trifluoperazine]. 341 68

We observed changes in the performance of isolated right ventricle strips taken from rats when calcium was repleted following various periods of calcium depletion in order to study certain phenomena, such as the calcium paradox, in this preparation. Furthermore, to assess the possible role of calmodulin in this myocardial damage, the effects of known calmodulin inhibitors such as trifluoperazine and chlorpromazine on the contractility and resting tension were studied by means of the calcium repletion after a calcium-depleted period of 12 min. The temperature was kept at 37 degrees C, and the muscle strips were stimulated electrically at a rate of 0.25 Hz. When there was a calcium-depleted period of longer than 8 min, a marked increase in resting tension was observed and reached maximum at 2 to 4 min. The recovery of peak developed tension and peak positive or negative dT/dt worsened as the duration of the calcium depletion was longer. These findings indicate the massive intracellular calcium influx by the calcium reintroduction and the myocardial damage induced by the calcium overload as observed in isolated whole hearts. Treatment with trifluoperazine (1-5 microM) and chlorpromazine (1-5 microM) did not inhibit a rise in resting tension significantly after the calcium repletion, except for 5 microM of both drugs at 6 min. Trifluoperazine significantly improved the recovery of the contractility (developed tension and dT/dt), whereas the protective effect of chlorpromazine was not obtained. These results suggest that the depression of calmodulin activity is beneficial in the prevention of myocardial damage produced by calcium repletion, although there is a difference in the effect of the calmodulin inhibitors, trifluoperazine and chlorpromazine.
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PMID:Effects of trifluoperazine and chlorpromazine on calcium-repleted injury in isolated ventricle strips. 407 89


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