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 two chemotactic factors, endotoxin activated serm (EAS) and casein and a number of drugs known to affect intracellular cyclic nucleotide levels and various froms of neutrophil movement, on neutrophil anaerobic glycolysis and hexose monophosphate shunt (HMPS) activity were assessed. EAS caused stimulation of glycolysis. HMPS activity and NBT reduction, but casein was without effect on glycolysis and NBT reduction and inhibited HMPS activity. Drug known to increase intracellular cAMP levels caused a depression of HMPS activity whereas those reported to elevate cGMP had a variety of effects. Glycolysis was not affected by any of these agents. These results indicate a lack of relationship between cyclic nucleotide effect on cell motility and neutrophil glycolysis and HMPS activity.
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PMID:The effect of chemotactic factors and agents which influence neutrophil movement on anaerobic glycolysis and hexose monophosphate shunt activity. 68 Jul 98

In order to investigate the mode of action of biogenic amines in rat cerebral cortex, the unitary activity of spontaneously firing neurons and their excitatory response to acetylcholine (ACh) were examined using microiontophoretic administration of dopamine (DA), noradrenaline (NA) and serotonin (5-HT). The predominant effect of these biogenic amines on the spontaneous activity was a profound and prolonged inhibition of firing (2-4 min), which attained its maximum within 15-120 sec. This response was generally more abrupt in onset and of greater magnitude with NA and 5-HT than with DA. Most units inhibited by DA, NA and 5-HT also showed marked depression of their excitatory response to ACh when pretreated with these biogenic amines. With repetitive administration of ACh, it could be shown that the total duration of inhibition of ACh responses by DA and NA was not as prolonged as the inhibition of the spontaneous firing of the same cells. With 5-HT, the initial ACh responses of many neurons could be completely blocked, and this inhibitory effect lasted as long as the inhibition of spontaneous firing. In view of the anatomical data demonstrating a relative sparsity of monoamine nerve terminals in cerebral cortex, the strong inhibition induced by DA, NA or 5-HT may have reflected slow inactivation of the biogenic amines. However, it could also be indicative of underlying mechanisms of action dependent on metabolic changes. Indeed, the interaction between biogenic amines and ACh might imply a balance between the intracellular pools of cAMP and cGMP is directly or indirectly influenced by the biogenic amines and ACh, respectively. This hypothesis would not exclude other modes of local interaction between DA, NA, 5-HT and ACh, and appears compatible with the modulatory role of biogenic amines in cerebral cortex.
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PMID:Modulatory role for biogenic amines in the cerebral cortex. Microiontophoretic studies. 76 Oct 65

Adenosine and adenine nucleotides [adenosine-5'-monophosphate, adenosine-5'-diphosphate, adenosine triphosphate (ATP), cyclic adenosine 3',5'-monophosphate (dbcAMP)], but not (cAMP) and dibutyryl cyclic adenosine 3',5'-monosphosphate (dbcAMP)], but not adenine or inosine, inhibited the twitch response of the electrically stimulated guinea-pig myenteric plexus-longitudinal muscle preparation. With each agent except dbcAMP, inhibition was manifest muscle preparation. With each agent except dbcAMP, inhibition was manifest from 1 to 500 muM was maximal within 1 minute. For dbcAMP, higher concentrations were required (10-fold increase) and inhibition was maximal after 20 to 30 minutes. Theophylline (0.05-0.5 mM) both reversed and prevented the inhibition produced by each of these agents. In higher concentrations (greater than 1 mM), theophylline itself depressed the twitch response. Neither propranolol nor phenoxybenzamine altered theophylline-induced depression, whereas phenoxybenzamine did not alter adenosine-induced inhibition. Adenosine, ATP, cAMP and theophylline (0.25 mM) did not alter acetylcholine-induced contractions, whereas a higher concentration of theophylline (2.5 mM) inhibited contractions. Theophylline (up to 0.5 mM) did not antagonize epinephrine- or dopamine-induced inhibition of the twitch response, but did antagonize morphine-induced inhibition. These findings suggest that adenosine and related nucleotides act at a common receptor site at which theophylline acts as a competitive antagonist and that there is a link between morphine and adenine nucleotide action in this preparation.
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PMID:Inhibition of acetylcholine release from cholinergic nerves by adenosine, adenine nucleotides and morphine: antagonism by theophylline. 127 Dec 86

The mechanism of inhibition of HCO3 transport by parathyroid hormone (PTH) in the proximal tubule is not clearly defined. Previous studies in vitro have suggested that this effect is mediated via cAMP generation, which acts to inhibit Na/H exchange, resulting in cell acidification. To examine this question in vivo, intracellular pH (pHi) was measured in the superficial proximal tubule of the rat using the pH-sensitive fluoroprobes 4-methylumbelliferone (4MU) and 2',7'-bis(carboxyethyl)-(5, and 6)-carboxyfluorescein (BCECF). PTH was found to alkalinize the cell. This alkalinization suggested inhibition of basolateral base exit, which was confirmed by in situ microperfusion studies: lowering HCO3 in peritubular capillaries acidified the cell, an effect blunted by PTH. Removal of luminal Na promoted basolateral base entry, alkalinizing the cell. This response was also blunted by PTH. Readdition of luminal Na stimulated the luminal Na/H exchanger, causing an alkalinization overshoot that was partially inhibited by PTH. cAMP inhibited luminal H secretion but did not alkalinize the cell. Stimulation of phosphatidylinositol-bis-phosphate turnover by PTH was suggested by the effect to the hormone to increase cell Ca. Blocking the PTH-induced rise in cell Ca blunted the effect of the hormone to alkalinize the cell, as did inhibition of phosphatidylinositol breakdown. Furthermore, stimulation of protein kinase C by a phorbol ester and a diacylglycerol applied basolaterally alkalinized the cell and inhibited luminal H secretion. The findings indicate that both arms of the phosphatidylinositol-bis-phosphate cascade play a role in mediating the effect of PTH on the cell pH. The results are consistent with the view that PTH inhibits base exit in the proximal tubule by activation of the phosphatidylinositol cascade. The resulting alkalinization may contribute, with cAMP, to inhibit apical Na/H exchange and the PTH-induced depression of proximal HCO3 reabsorption.
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PMID:Parathyroid hormone decreases HCO3 reabsorption in the rat proximal tubule by stimulating phosphatidylinositol metabolism and inhibiting base exit. 131 50

Adenylyl cyclase in rat adipose cells is stimulated by ligands for Rs receptors (e.g. isoproterenol) and inhibited by ligands for Ri receptors (e.g. adenosine). In contrast, Rs receptors mediate inhibition and Ri receptors mediate augmentation of insulin-stimulated glucose transport activity by a process independent of changes in cellular cAMP-dependent protein kinase activity [Kuroda M., Honnor R. C., Cushman S. W., Londos C. and Simpson I. A. (1987) J. biol. Chem. 262, 245-253]. The present study examines the possible role of G-proteins in the regulation of insulin-stimulated glucose transport activity by Rs and Ri receptors. First, conditions were established that permit intoxication of isolated rat adipocytes by cholera and pertussis toxins without compromising cell integrity. Effectiveness of toxin treatment was monitored by examining adenylyl cyclase activity in isolated plasma membranes. Secondly, neither toxin interfered with the ability of a maximal concentration insulin to initiate the glucose transport response. Thirdly, pertussis toxin eliminated the augmenting effects of adenosine on insulin-stimulated glucose transport activity, but enhanced the inhibitory effects of isoproterenol. Findings with ligands for other Ri receptors (nicotinic acid and prostaglandin E2) mirrored those with adenosine. Finally, cholera toxin elicited a modest depression of transport activity, and only in the absence of an Ri ligand (e.g. adenosine). Furthermore, in contrast to the enhanced stimulation of adenylyl cyclase by isoproterenol and GTP, cholera toxin eliminated the inhibitory effect of isoproterenol on transport activity. The augmentative effects of adenosine on transport activity were unchanged. Measurements of (-/+cAMP) cAMP-dependent protein kinase activity ratios reinforce the notion that modulation of glucose transport activity is independent of changes in cAMP. We conclude that regulation of glucose transport activity by Rs and Ri receptors is mediated by the G-proteins, Gs and Gi (or other toxin substrates), respectively. Inasmuch as such regulation occurs at the plasma membrane and appears to be cAMP-independent, it is suggested that glucose transporters may be direct targets for receptor: G-protein interactions.
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PMID:Cholera and pertussis toxins modify regulation of glucose transport activity in rat adipose cells: evidence for mediation of a cAMP-independent process by G-proteins. 131 47

1. Using internal perfusion and concentration-clamp procedures applied to Helix neurons, the effects of cAMP, Ca2+, and phorbol esters on ouabain-induced depression of acetylcholine Cl-dependent responses were determined. 2. Intracellular cAMP (10(-4) M) depressed those acetylcholine responses which were blocked by ouabain but had no effect on ouabain-insensitive acetylcholine responses. In the presence of elevated intracellular cAMP, ouabain had no further depressant effect on these acetylcholine responses. Both elevated cAMP and ouabain reduced the acetylcholine response without altering the current-voltage curves. 3. An increase in intracellular Ca2+ concentration depressed the amplitude of current induced by application of acetylcholine in neurons with ouabain-sensitive responses and shifted the dose-response relationship to the right. However, elevated Ca2+ did not reduce the maximal response induced by acetylcholine, nor did it prevent the reduction of that response by ouabain. 4. 12-O-Tetradecanoylphorbol-13-acetate (TPA), a potent stimulator of protein kinase C activity, caused depression of both the ouabain-sensitive and the ouabain-insensitive acetylcholine responses. The inhibitory effect of TPA was markedly enhanced after addition of ATP to the intracellular medium and was greatly reduced by cooling to 5 degrees C. The blocking effect of ouabain, however, reexamined in the presence of TPA. 5. These observations are consistent with the hypothesis that the depression of acetylcholine induced Cl--responses in Helix neurons is a result of an increase in intracellular cAMP concentration but is unrelated to activation of protein kinase C or increases in intracellular Ca2+.
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PMID:The effects of cAMP, Ca2+, and phorbol esters on ouabain-induced depression of acetylcholine responses in Helix neurons. 131 66

ProELH is the prohormone to the bag cell egg-laying peptide of Aplysia. In addition to containing the structure of the hormone (ELH) itself, proELH also contains several other secreted peptides: AP (acidic peptide) and alpha-, beta-, and gamma-bag cell peptides (BCPs). The BCPs, ranging in length from 5 to 9 amino acids, are structurally similar in that they all contain the sequence Arg-Leu-Arg-Phe. An additional peptide from the atrial gland, Atrial A, also contains this sequence. The BCPs previously have been reported to have direct feedback (autocrine) effects on the bag cells, including electrophysiological excitation and inhibition. Moreover, some of these effects are temperature-dependent. The autocrine functions of these peptides were explored here by investigating their effects on bag cell cAMP levels. In addition, we monitored the effects of Atrial A, as well as ELH and AP, which are proELH products that do not have sequence homology with the BCPs. While ELH and AP have no effect on bag cell cAMP levels, the other peptides fall into two functional classes. alpha- and gamma-BCP produce an elevation of cAMP levels at 20 degrees and a depression at 15 degrees C. The elevation in cAMP is sensitive to low Ca2+/high Mg2+. beta-BCP and Atrial A elevate cAMP levels independently of temperature, and are insensitive to low Ca2+/high Mg2+. Our results suggest that there may be multiple bag cell receptors for these peptides with the Arg-Leu-Arg-Phe sequence representing a receptor-recognition motif.
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PMID:ProELH-related peptides: influence on bag cell cAMP levels. 133 78

The instantaneous velocity plots of Dictyostelium discoideum amoebae responding to natural waves and simulated temporal waves of cAMP with periods of 7 min are highly similar. This similarity has been used to deduce the dynamics of a natural wave crossing an amoeba, and the behavior of amoebae has been characterized during the different phases of a natural wave with a computer-assisted dynamic image analyzing system. During the first approximately 150 sec of the front of a natural wave, cells move persistently toward the aggregation center, with high instantaneous velocity and a decreased frequency of lateral pseudopod formation. During the last 30 sec of the front of the wave and the first 30 sec of the back of the wave, there is a "freeze" in cell shape and a dramatic depression in cell motility, pseudopod formation, and intracellular particle movement. During the last 180 sec of the back of the wave, there is a rebound in pseudopod formation, but it is random in direction and leads to no net cellular translocation. The data suggest that all of the behavior of a cell but orientation during the translocation phase is mediated by the temporal dynamics of the wave. The data also suggest that orientation toward the aggregation center occurs early in the front of the wave and that, once oriented, cells move in a blind fashion during the translocation phase.
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PMID:Behavior of Dictyostelium amoebae is regulated primarily by the temporal dynamic of the natural cAMP wave. 133 66

NG-Methyl-L-arginine (NMA), an inhibitor of nitric oxide synthesis by vascular endothelium, depresses cardiac function and causes systemic vasoconstriction in vivo. The mechanism of cardiac depression is unclear. Since cGMP inhibits one isoform of myocardial phosphodiesterase (PDE), we hypothesized that a decrease in cGMP might increase PDE activity and lower myocardial cAMP levels, resulting in decreased contractility. Experiments were conducted in isolated, paced, Langendorff-perfused (constant flow) rat hearts under control or isoproterenol-stimulated conditions. In non-stimulated hearts, a 15 min infusion of 30 microM NMA had no effect on cAMP content or on left ventricular dP/dt; however, myocardial cGMP content was decreased. Infusion of 0.01 microM isoproterenol caused dP/dt to increase and caused coronary resistance to fall; myocardial cAMP levels increased while cGMP remained unchanged by isoproterenol. In this stimulated condition, infusion of 30 microM NMA decreased dP/dt and myocardial cGMP and cAMP concentrations. NMA caused coronary resistance to increase to similar maximal values in isoproterenol-stimulated and non-stimulated hearts. Although coronary flow was kept constant during NMA administration, NMA depressed cardiac contractility in isoproterenol-stimulated hearts, but not in non-stimulated hearts, and the depressed contractility in isoproterenol-treated hearts was associated with a decrease in myocardial content of cGMP and cAMP. Therefore, these results are consistent with the hypothesis that NMA may decrease myocardial contractility by decreasing cGMP which leads to increased PDE activity and decreased cAMP.
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PMID:NG-methyl-L-arginine decreases contractility, cGMP and cAMP in isoproterenol-stimulated rat hearts in vitro. 133 73

The effects of adrenaline and isoproterenol, a specific beta-adrenergic agonist, on TNF production were investigated. Both agents inhibited the production of TNF by human blood and THP-1 cells stimulated by LPS. The effect of adrenaline was prevented by a beta-receptor antagonist, but not by an alpha-receptor antagonist. Levels of TNF mRNA were not reduced by adrenaline. Inhibition of TNF production was observed only if cells were first exposed to adrenaline or isoproterenol at about the same time as to LPS; incubation of THP-1 cells with isoproterenol for 24 h before LPS stimulation dramatically increased response, and prevented suppression of TNF production by a second dose of isoproterenol. Intracellular cAMP levels were increased by adrenaline and isoproterenol, at concentrations that inhibited TNF production. However, prolonged incubation of THP-1 cells with isoproterenol resulted in depression of cAMP concentrations to below basal levels. These data suggest that TNF production can be regulated by beta-receptor stimulation, that such regulation is mediated by changes in intracellular cAMP concentrations and is exerted at a posttranscriptional level. Adrenaline may be an important endogenous regulator of TNF production in sepsis.
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PMID:Regulation of tumor necrosis factor production by adrenaline and beta-adrenergic agonists. 135 Feb 91

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