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)

We have devised an improved high pressure liquid chromatographic technique whereby serotonin, nucleosides, cyclic nucleotides, namely cAMP and cGMP, and 5'mono-, 5'di-, and 5'tri-nucleotides can be analyzed. The cyclic nucleotides have been measured in picomolar quantities. All nucleotides can be quantitated in a single step separation in 75 min using a 0.0015 M phosphoric acids vs. 1M pH 4.8 ammonium phosphate gradient. 5/10 ml of platelet-rich plasma furnishes an adequate sample for complete analysis. Nucleotide levels in platelets from 16 normal donors expressed in 10(11) platelets are as follows: cAMP, 6.32 (4.15) nanomoles and AMP, 0.32 (0.14); ADP, 2.48 (0.67); ATP 3.78 (0.68); GDP 0.38 (0.07) and GTP, 0.45 (0.07) micromoles. ADP and ATP values are lower than those previously published. However, the total nucleotide level approaches published values. Upon aggregation with thrombin, approximately 50% of ADP and 40% ATP is releaseed. Release is complete by 2 min. Thrombin is the most potent releasing agent with collagen and ADP occupying an intermediate role and epinephrine being the least effective. Upon aggregation cyclic AMP levels diminish along the other nucleotides. Patients with asthma showed depression of ADP, ATP, GDP and GTP levels.
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PMID:Measurement of nucleotide pools in platelets using high pressure liquid chromatography. 57

The action of 21 purine compounds on the twitch response of the electrically stimulated guinea pig isolated ileum has been investigated. Adenosine and related compounds produced a dose-dependent depression of the response. Adenosine was the most potent and 2'-deoxyadenosine had one hundredth the potency of adenosine. Adenine, hypoxanthine, inosine, IMP, ITP, xanthine, xanthosine, XMP, XTP, guanine, GMP and GTP were ineffective at concentrations less than 1 mM. Adenosine (30 microgram) reduced the electrically induced ACh output from the ileal strips. The dose--depression curve for adenosine (0.1--30 microgram) was shifted to the right in the presence of xanthine derivatives and of these, theophylline was the most potent inhibitor of adenosine. On the other hand, dipyridamole (0.1--1 microgram) and hexobendine (0.1--1 microgram) shifted the curve to the left. They markedly inhibited 3H-adenosine uptake into the ileum. Theophylline (0.1 mM), dipyridamole (0.3 microgram) and hexobendine (0.3 microgram) did not affect tetrodotoxin-, adrenaline-, strychnine- and morphine-induced inhibition of the twitch response. The present investigations have revealed that adenosine and related compounds reduce ACh release from the intramural cholinergic nerves in the guinea pig ileum possibly in a specific manner (or through a specific receptor site) different from that of other inhibitors such as morphine.
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PMID:Effects of purine compounds on cholinergic nerves. Specificity of adenosine and related compounds on acetylcholine release in electircally stimulated guinea pig ileum. 63 57

Rats fed a special liquid fat diet had a higher level of liver triglycerides than rats fed a normal solid chow diet. The ingestion of ethanol induces a concomitant increase in hepatic triglycerides and a depression of ATP levels. Pure adenine base administered orally produces a significant reduction of hepatic triglycerdies and partially restores ATP levels in the chronic ethanol treated rat. Comparable doses of oral ATP are not effective. Pure guanine base and GTP failed to inhibit the ethanol-induced fatty liver and ATP depression.
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PMID:The effect of purine bases and nucleotides on ethanol-induced fatty liver syndrome. 67 63

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

High-threshold (HVA) Ca2+ channels of human neuroblastoma IMR32 cells were effectively inhibited by noradrenaline. At potentials between -20 mV and +10 mV, micromolar concentrations of noradrenaline induced a 50%-70% depression of HVA Ba2+ currents and a prolongation of their activation kinetics. Both effects were relieved at more positive voltages or by applying strong conditioning pre-pulses (facilitation). Facilitation restored the rapid activation of HVA channels and recruited about 80% of the noradrenaline-inhibited channels at rest. Re-inhibition of Ca2+ channels after facilitation was slow (tau r 36-45 ms) and voltage-independent between -30 mV and -90 mV. The inhibitory action of noradrenaline was dose-dependent (IC50 = 84 nM), mediated by alpha 2-adrenergic receptors and selective for omega-conotoxin-sensitive Ca2+ channels, which represent the majority of HVA channels expressed by IMR32 cells. The action of noradrenaline was mimicked by intracellular applications of GTP[gamma S] and prevented by GDP[beta S] or by pre-incubation with pertussis toxin. The time course of noradrenaline inhibition measured during fast application (onset) and wash-out (offset) of the drug were independent of saturating agonist concentrations (10-50 microM) and developed with mean time constants of 0.56 s (tau on) and 3.6 s (tau off) respectively. The data could be simulated by a kinetic model in which a G protein is assumed to modify directly the voltage-dependent gating of Ca2+ channels. Noradrenaline-modified channels are mostly inhibited at rest and can be recruited in a steep voltage-dependent manner with increasing voltages.
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PMID:Voltage-dependent noradrenergic modulation of omega-conotoxin-sensitive Ca2+ channels in human neuroblastoma IMR32 cells. 133 78

1. The effects of dibutyryl guanosine 3',5'-cyclic monophosphate (db-cyclic GMP) were studied in vitro on calcium channels of neurones in rabbit vesical parasympathetic ganglia, using intracellular and single-electrode voltage-clamp recordings. 2. Db-cyclic GMP (100 microM) caused membrane depolarization associated with a decrease in membrane input resistance and an after-hyperpolarization associated with an increase in membrane input resistance. 3. Db-cyclic GMP (0.01-1 mM) caused a concentration-dependent, transient inward current followed by a long-lasting outward current. Membrane conductance was increased and decreased during the inward and outward currents, respectively. 4. The db-cyclic GMP-induced inward current was depressed in nominally calcium-free solutions, by cobalt (1 mM) and nicardipine (10 microM). The mean reversal potentials of the inward current were +42 and -20 mV in the presence and absence of calcium in the external solution, respectively. 5. The db-cyclic GMP-induced inward current was not altered by lowering the external sodium concentration, raising external potassium concentration or by intracellular injection of caesium. 6. A calcium-insensitive component of the db-cyclic GMP-induced current was increased by lowering the external chloride concentration and blocked by 4-acetamido-4'-isothiocyanostilbene-2,2'-disulphonic acid, a chloride channel blocker. 7. Voltage-dependent, high-threshold calcium currents were depressed during the db-cyclic GMP-induced inward current and facilitated during the outward current. 8. Cyclic GMP was less potent than db-cyclic GMP in causing both inward and outward currents or modulation of calcium currents. GTP, GDP, GMP, guanosine, 8-bromoadenosine 3',5'-cyclic monophosphate and forskolin did not alter the holding current or voltage-dependent calcium currents. 9. It is concluded that intracellular cyclic GMP causes not only activation of resting calcium and chloride channels but also a transient depression followed by long-lasting facilitation of voltage-dependent calcium currents in neurones of vesical parasympathetic ganglia.
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PMID:Guanosine 3',5'-cyclic monophosphate regulates calcium channels in neurones of rabbit vesical pelvic ganglia. 133 64

We characterized the effects of thyrotropin-releasing hormone (TRH; 500 nM) and guanosine 5'-0-3-thiotriphosphate (GTP gamma S; 50 microM) on two types of Ca2+ currents in pituitary-hormone-secretory GH3 cells and were surprised to find marked increases in transient, low-threshold Ca2+ currents (T currents) induced by extracellularly applied TRH or intracellularly applied GTP gamma S. The effect of TRH was blocked by intracellularly applied guanosine 5'-0-2-thiodiphosphate (GDP beta S; 100 microM). The increase in the T current was found to be accompanied by a decrease in long-lasting, high-threshold Ca2+ current (L-current), in response to both TRH or GTP gamma S. These indicate that the enhancement of Ca2+ influx by TRH (500 nM) is largely conferred by T currents in GH3 cells. A reduced concentration of TRH (5 nM) still markedly increased the T current, but failed to decrease the L current. These data suggest that the augmentation of the T currents as well as depression of the L currents by TRH (500 nM), through the activation of a GTP-binding protein, may constitute an important regulatory mechanism of sustained pituitary hormone secretion in GH3 cells.
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PMID:Augmentation of transient low-threshold Ca2+ current induced by GTP-binding protein signal transduction system in GH3 pituitary cells. 152 Mar 44

1. We examined the effects of gamma-aminobutyric acid (GABA) and baclofen on pre- and postsynaptic membrane conductances in dissociated rat hippocampal cells. Both GABA (5 microM with 10 microM-bicuculline) and baclofen (50 microM) caused small but significant increases in membrane conductance that were blocked by 2-hydroxysaclofen (100 microM), a GABAB receptor antagonist. This increase in membrane conductance seems to be mediated by GABAB receptors. 2. At a low concentration of GABA (1 microM) which has a very small direct postsynaptic effect on GABAA receptors, no postsynaptic GABAB effect was detected. However, at this concentration, GABA near maximally attenuated both excitatory and inhibitory synaptic currents. This GABA effect on transmitter release was significantly attenuated by 2-hydroxysaclofen. 3. Baclofen was also more potent in attenuating the inhibitory synaptic conductance than increasing postsynaptic conductance. Concentrations below 1 microM diminished synaptic currents by greater than 50%. At these low baclofen concentrations 2-hydroxysaclofen significantly attenuated baclofen's reduction of synaptic currents. 4. The effects of GABA and baclofen on synaptic conductances were blocked by pretreating the cultures with pertussis toxin, suggesting that a GTP-associated protein, Gi or Go is responsible for reducing transmitter release. 5. Despite the ability of GABA to diminish inhibitory synaptic currents through GABAB receptor activation, we observed no effect of 2-hydroxysaclofen on paired-pulse depression. Therefore, these presynaptic GABAB receptors may not be true 'autoreceptors'. 6. Our findings indicate that in culture, at least, the presynaptic GABAB effect responsible for synaptic modulation has a pharmacological profile similar to the postsynaptic GABAB effect. At present, it is unnecessary to postulate two different types of GABAB receptors.
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PMID:The modulation of rat hippocampal synaptic conductances by baclofen and gamma-aminobutyric acid. 166 62

An overview was presented of our approach of inhibition of de novo and salvage pathways in pyrimidine and purine metabolism. 1. Combination of acivicin, an inhibitor of de novo biosynthesis, and dipyridamole, a transport inhibitor, provided synergistic cytotoxicity in hepatoma and colon carcinoma cells. 2. AZT, a competitive inhibitor of the salvage enzyme, thymidine kinase, and 5-FU or MTX provided synergistic cytotoxicity in hepatoma 3924A. In human colon carcinoma HT-29 cells AZT and methotrexate yielded synergistic cytotoxicity and thymidine and hypoxanthine together provided protection from the action of these drugs. 3. These observations are significant because in rat hepatoma 3924A and in human cell lines HT-29, HL-60 and K562 thymidine kinase activity was 16- to 67-fold higher than that of dTMP synthase. Therefore, inhibition of dTMP synthase activity alone may provide poor responses because the salvage pathways can circumvent this block. 4. In leukemic patients treated with tiazofurin, an inhibitor of IMP dehydrogenase, the rate-limiting enzyme of GTP biosynthesis, and with allopurinol, which inhibits GPRT activity through raising plasma hypoxanthine levels, synergistic therapeutic results were obtained. The responses in sensitive patients entailed a decrease in IMP dehydrogenase activity and GTP concentration in leukemic cells and down-regulation of the ras and myc oncogenes. The down-regulation of the ras oncogene by tiazofurin through the decrease of GTP concentration has now been shown in K562, HL-60 and hepatoma cells and in patients with chronic granulocytic leukemia in blast crisis. Tiazofurin may be useful in studies on selective depression of the expression of the ras oncogene. 5. In 27 consecutive patients 50% responded positively to tiazofurin treatment. From this group, 10 out of 12 patients (83%) with chronic granulocytic leukemia in blast crisis responded to tiazofurin treatment.
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PMID:Regulation of de novo and salvage pathways in chemotherapy. 187 99

The modulation of Ca2+ currents by the excitatory neurotransmitter glutamate and its analogs was investigated in hippocampal neurons in culture. In the presence of glutamate receptor-gated ion channel antagonists, all of the analogs tested caused either a small reversible depression or had no effect on the Ca2+ current. However, in neurons dialyzed with GTP gamma S, quisqualate and glutamate but not NMDA, kainate, AMPA, or L-APB caused marked and irreversible depressions of the Ca2+ current. This inhibition was only observed if Ca2+ was present in either the internal or external medium. Intracellular H-7, staurosporine, IP3, cAMP, cGMP, or calmodulin inhibitors failed to prevent the quisqualate-induced Ca2+ current inhibition. These observations are consistent with an interaction between a G protein-coupled glutamate receptor and Ca2+ channels.
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PMID:Quisqualate receptor-mediated depression of calcium currents in hippocampal neurons. 197 15

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