UMLS:C0011570 - FACTA Search

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)

1. The effects of external medium calcium concentration, the ionophore A(23187) and lanthanum on the rate of renin release in vitro were studied with particular emphasis on results obtained from isolated superfused glomeruli of rat kidneys.2. The response to reduction in superfusate calcium concentration from 2 mM was a graded and reversible increase in the rate of renin release. An increase in release was detectable at 0.2 mM calcium; a threefold increase was found 36 min after a change from 2 mM calcium to calcium-free superfusate. A similar relative increase in release resulted from reductions from 0.1 mM to zero calcium, but the absolute amounts of renin released were greater in this latter series. Renin release from kidney cortical slices similarly increased in response to calcium-free incubation medium.3. The effects of A(23187) on renin release were modest. Changing from 2 mM calcium during control periods to calcium-free Ringer with A(23187) added caused an attenuated and more delayed increase in release than the change to calcium-free Ringer without ionophore. This difference in response was abolished when glomeruli were superfused with 0.1 mM calcium during the preceding 1 hr control period. There was no significant difference in renin release from glomeruli exposed to calcium-free EGTA-Ringer with and without A(23187) in the 2 mM calcium series; in the 0.1 mM calcium series the increase in release following a shift to calcium-free EGTA-containing superfusate with A(23187) added was significantly greater than in the absence of the ionophore.4. Addition of lanthanum (1 or 0.05 mM) to calcium-containing as well as calcium-free superfusate resulted in a significant depression of renin release. Subsequent removal of the lanthanum did not restore the rate of release unless EGTA was added; in the latter case a massive increase in renin release occurred resulting in a marked depletion of the remaining renin content of the glomeruli.5. It is concluded that calcium influences renin release by a direct action on the juxtaglomerular cells. The data support the previous suggestion that basal renin release is a function of active, calcium-dependent cell volume regulation - swelling causing an increase in the release; and further suggest that membrane-bound calcium has a direct effect on the cell membrane permeability to renin.6. The results exclude that calcium-stimulated exocytosis is responsible for basal renin release from the juxtaglomerular cells adhering to isolated glomeruli.
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PMID:Studies on the mechanism of renin release from isolated superfused rat glomeruli: effects of calcium, calcium ionophore and lanthanum. 41 32

1. Intracellular iontophoretic injections of EGTA (5--20 nA) into cat spinal motoneurones consistently greatly reduce the amplitude of the delayed after hyperpolarization (a.h.p.) that follows the spike. 2. This effect is accompanied by a large reduction (on average by 3/4) in the marked increase in input conductance normally associated with the a.h.p. 3. There is also a consistent, though less regular, tendency for the resting input conductance to decrease (on average by 1/5), as well as some depolarization. 4. Recovery of the a.h.p., the associated conductance increase and the resting conductance is ver slow. It is sometimes accelerated by injections of citrate and Cl-, or CA2+. 5. Other hyperpolarizing phenomena, such as recurrent or othodromically-evoked i.p.s.p.s, are not depressed by injections of EGTA. 6. When depolarization is minimal EGTA injections that markedly depress the a.h.p. do not affect the rate of rise or fall of the spike. If, as a result of depolarization, an early a.h.p. is visible, it is patently insensitive to EGTA. 7. The post-spike depolarizing after-potential (delayed depolarization) is not obviously affected by EGTA, apart from the usual diminution seen during depolarization. 8. Since the main action of EGTA is to bind free Ca2+, the marked depression of the a.h.p. indicates that the sharp increase in K conductance which generates the a.h.p. is probably caused by a influx of Ca2+ accompanying the action potential. It is suggested that this inward Ca2+ current may be manifested in the depolarizing after-potential.
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PMID:EGTA and motoneuronal after-potentials. 41 1

In a study of electrolytes in lumbar cerebrospinal fluid (csf) from psychiatric patients, the authors found a positive correlation between calcium concentration and symptom severity in hospitalized depressed patients. CSF calcium levels tended to decrease as patients improved. In four rapidly cycling patients, CSF calcium was higher during depression than during mania. Mean CSF calcium for the depressed patients as a group was not significantly different from neurological controls or other psychiatric patients. Symptom remission from acute psychosis in schizophrenic patients was accompanied by a significant increase in CSF calcium concentration. These findings are discussed in relationship to calcium-induced alterations in neuronal and physiological excitability.
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PMID:CSF calcium: clinical correlates in affective illness and schizophrenia. 42 Sep 7

Dantrolene sodium is a muscle relaxant used in the treatment of spasticity. It has been shown to interfere with calcium release from the sarcoplasmic reticulum and thus to inhibit excitation--contraction coupling. The effect of dantrolene sodium on the twitch tension of the tibialis anterior muscle of the rat was measured after 2 mg/kg i.v. or 25 mg/kg orally. Plasma concentrations were estimated at maximum twitch depression and during recovery from the block. In a separate series of experiments the half-life of labelled dantrolene sodium was measured in blood plasma, skeletal muscle and heart muscle of rats. Dantrolene sodium 2 mg/kg i.v. gave a maximal block of approximately 47%, the mean dantrolene sodium concentration was then 5.8 microgram/ml. A half-life for distribution of 1.1 min and an elimination half-life of 31 min after intravenous administration were observed, elimination rate constants in skeletal and heart muscle were comparable. Recovery from the block went much slower, the half-time of the process being approximately 80 min. Dantrolene sodium 25 mg/kg orally gave a maximal block of approximately 38% at a mean plasma concentration of 3.6 microgram/ml after 14 min. The recovery was again very slow. These experiments demonstrated that dantrolene sodium acts according to a two-compartment pharmacokinetic model. There was a discrepancy between duration of effect and plasma concentration of dantrolene sodium in the rat. This suggests that the receptor for dantrolene sodium is not located in the central compartment.
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PMID:The effect of dantrolene sodium on rat skeletal muscle in relation to the plasma concentration. 42 31

Cat right ventricular papillary muscles responded biphasically to cumulative additions of ryanodine. A progressive and pronounced negative inotropic effect was observed with low to intermediate ryanodine concentrations (5 nM-1 muM) while a rebound or reversal of these initial changes back toward pre-drug values was obtained as the ryanodine concentration was further increased to 100 muM. Active force development (DF), the rate of force development (dF/dt), as well as the rate of relaxation all exhibited these bidirectional changes. In contrast, time to peak force underwent only a progressive prolongation over the entire concentration range tested. This response pattern was observed with both normal and K+-depolarized (isoproterenol- or dibutyryl cAMP-restored) preparations. The response to a single addition of 100 muM ryanodine, in the presence of 2.5 mM Ca++ mimicked both the qualitative and quantitative aspects of the cumulative concentration response curve. In the presence of 5.0 mM Ca++ the high concentration of ryanodine no longer caused depression but instead caused only a slowly developing, monophasic increase in DF. Ryanodine also changed the response of ventricular muscle to other inotropic interventions. Ryanodine (1 muM; 2.5 mM Ca++) abolished the normal increase in dF/dt following either paired electrical stimulation (PES) or 50 mOsM mannitol, but not that in response to a doubling of the stimulation rate (0.2--0.4 Hz). After ryanodine exposure, the potentiation of developed force by PES was shifted from the first (regular) to the second (premature) contraction, producing a summation-like waveform. Prior addition of the calcium channel antagonist D600 (1 muM) did not alter ryanodine-induced changes in PES. Caffeine (1 mM) produced alterations in the responses to PES and hyperosmolarity which were similar to those observed with ryanodine. In the presence of high concentrations of both ryanodine (100 muM) and calcium (5 mM) both the transient and steady-state responses to a doubling of the stimulation rate (0.2--0.4 Hz) were markedly depressed, whereas the decrease in DF or dF/dt normally accompanying a reduction in the rate of stimulation was attenuated. The data obtained in the present study are consistent with a functional inhibition of sarcoplasmic reticular calcium release by ryanodine.
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PMID:Ryanodine: its alterations of cat papillary muscle contractile state and responsiveness to inotropic interventions and a suggested mechanism of action. 43 Mar 77

Nifedipine, a slow-channel calcium blocker, is thought to provide useful myocardial protection during prolonged total ischemia and reperfusion. An isolated, isovolumic, feline heart model was used to asses the effectiveness of nifedipine in both cardioplegic (100 microgram/10 ml) and noncardioplegic (10 microgram/10 ml) doses for providing myocardial preservation during 90 minutes of hypothermic ischemic arrest and 45 minutes of normothermic reperfusion. Use of nifedipine was compared to hypothermia (27 degrees C) alone and to hypothermia with potassium cardioplegia. Ventricular function was assessed by recovery of isovolumic left ventricular developed pressure and dP/dt. Myocardial carbon dioxide tension (PCO2) and myocardial oxygen tension (PO2) were measured by mass spectrometry. Potassium cardioplegia and the higher dose of nifedipine resulted in immediate asystole. The rates of rise of PCO were greatest in the group receiving 10 microgram nifedipine and in the control group. The rates of rise in the two cardioplegic groups were significantly lower. Recovery of ventricular function was significantly lower with low-dose nifedipine than with potassium cardioplegia. Higher dose nifedipine resulted in a return of function, which was no different than with potassium cardioplegia. Morphologic protection was better with higher dose nifedipine and potassium cardioplegia than with either low-dose cardioplegia or hypothermia alone. These results demonstrate that nifedipine in a cardioplegic dose results in preservation of myocardial structure and function that is similar to that obtained with potassium cardioplegia. In lower noncardioplegic dose, nifedipine does not appear to offer additional protection compared to hypothermia alone. Whether persistent depression of ventricular contractility will limit nifedipine's clinical usefulness as a myocardial protection agent will require further study.
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PMID:Comparison of myocardial protection with nifedipine and potassium. 44 71

The control of ionized calcium (Ca++), total calcium, and citrate levels in serum were determined in dogs during autotransfusion (AT) of blood stabilized with heparin, ACD (formula B) and CPD. Blood samples were taken according to the changes of aortic pressure (AOP), which was continuously monitored. Taking the values during the stable phase of AOP preceding the AT as baseline, Ca++ dropped by 27% with ACD and by 34% with CPD at the maximum decrease of AOP immediately after the AT. The corresponding increase of citrate was 174% with ACD and 521% with CPD, while total calcium remained stable. Thus cardiac depression after AT of citrated blood seems to be mainly caused by the drop of Ca++, which is significantly more pronounced with CPD, corresponding to the higher content of citrate.
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PMID:[Changes in ionized calcium and citrate levels in dogs during mechanical autotransfusion with heparin, ACD and CPD]. 45 36

This study was an attempt to compare psychological and biological variables in 43 obese patients after intestinal bypass surgery. The difficulties in expressing the psychological variables quantitatively are discussed on the basis of the concept of transferability. By use of an expanded version of the Beck Depression Inventory and the Marke-Nyman Temperament Scale we could demonstrate that items concerning asthenia (self-dislike, irritability, work retardation, insomnia, fatigability, somatic preoccupation about aches and pains, loss of libido, headache, vertigo, palpitations, dryness of the mouth, thirst or increased liquid intake) had, when summed up, a score distribution indicating bimodality. The asthenic group of patients (n = 19) when compared with the non-asthenic patients (n = 24) showed metabolic deficiencies related to the vitamin D complex with no response to oral vitamin D3 administration measured by plasma levels of 25-hydroxyvitamin D3. The lack of response was associated with low calcium excretion in the urine, higher plasma alkaline phosphatase, and a tendency to higher blood levels of parathyroid hormone.
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PMID:Depression or asthenia related to metabolic disturbances in obese patients after intestinal bypass surgery. 46 85

We present evidence in accord with the observations of S. Kalsner (Br. J. Pharmacol. 36: 582-593, 1969) that in the rabbit aorta, desoxycorticosterone (DOC) potentiates the contractile response to certain catecholamines by inhibiting their degradation by catechol-O-methyltransferase. In contrast, DOC depresses the contractile responses in rat aorta and tail arteries. To elucidate the mechanism of this depression the effect of DOC was evaluated under various conditions. DOC depressed the contractile response to epinephrine, phenylephrine, KCl, and angiotensin II. The depression was unaltered by ouabain or by a potassium-free solution, indicating that DOC did not produce its depression by altering Na-K-ATPase activity. The depression is unaltered in a chloride-free solution, demonstrating that the DOC effect is not caused by a change in membrane permeability to chloride. Radioisotope studies demonstrate that DOC does not alter membrane permeability to potassium. Removal of extracellular calcium with EGTA (ethylene glycol-bis (beta-aminoethyl ether) N, N'-tetraacetic acid) significantly reduced the magnitude of the DOC depression. Indirect evidence is presented suggesting that DOC might increase calcium binding to the plasma membrane, resulting in its stabilization and hence in a depression of the contractile response.
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PMID:In vitro effects of desoxycorticosterone on vascular smooth muscle. 46 13

The effects of intracoronary administration of ionic and nonionic contrast materials on (LV)left ventricular contractile state, relaxation rate (peak -dp/dt and [-dp/dt]50), and dimensions were determined in eight morphine-chloralose anesthetized dogs. Meglumine sodium diatrizoate caused decreases in peak dp/dt and -dp/dt and increases in left ventricular end systolic dimension (LVESD'), end diastolic dimension (LVEDD'), and end diastolic pressure(LVEDP). The decreases in peak -dp/dt and(-dp/dt)50 persisted after peak dp/dt returned to and exceeded control levels. Calcium meglumine sodium metrizoate caused increases in peak dp/dt but decreases in peak -dp/dt and(-dp/dt)50 and no significant changes in LVEDP, LVESD', or LVED'D. Metrizamide caused no significant changes. Ionic contrast materials induce important changes in LV dimensions and rate of relaxation in addition to producing a depression in contractile state. The decreases in relaxation rate are not reversed by addition of calcium ions.
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PMID:Effects of intracoronary administration of contrast materials on left ventricular dimensions and rate of relaxation. 46 96

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