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)

In this study, we investigated the effects of acute caffeine administration on the activity of midbrain dopamine neurons. Caffeine significantly depressed the firing rates of dopamine neurons in the ventral tegmental area (A10 group), but had no significant effect on the firing rates of dopamine neurons in the substantia nigra zona compacta (A9 group). The action of caffeine in A10 was completely blocked by pretreatment with the adenosine agonist L-phenyl-isopropyl-adenosine (L-PIA), confirming numerous lines of evidence that caffeine and other xanthines act as competitive antagonists at adenosine receptors. The dopamine antagonist haloperidol also antagonized the effects of caffeine. This finding is consistent with a mechanism of caffeine-induced depression of dopamine neuron activity involving dopamine release, similar to that observed during amphetamine administration. Finally, the benzodiazepine diazepam also antagonized the dopaminergic effects of caffeine. It appears that, in the rat, caffeine administration inhibits mesolimbic and mesocortical projecting dopamine neurons, but has no effect on dopamine neurons that project to the striatum.
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PMID:Preferential effects of caffeine on limbic and cortical dopamine systems. 283 13

Several different types of acetylcholine secretion have been shown to coexist at the neuromuscular junction along with the Ca2+-dependent quantal release producing miniature endplate potentials (mepps) and endplate potentials. One of these, the Ca2+-insensitive, slow-rising mepps (slow mepps), is present in normal untreated muscles but is most prominent in many conditions where the Ca2+-dependent quantal release mechanism is not functioning properly. Slow mepps occur at a frequency of less than 0.1 Hz in normal muscles, with large variability between fibres and muscles, and can reach frequencies of 1-2 Hz in several pathological conditions. The potentials are also highly variable in size and shape, being generally of high amplitude (0.1-15 mV) and prolonged time course (1-15 ms rise time). Most importantly, slow mepps are not affected by procedures which increase the intraterminal Ca2+ concentration, including nerve stimulation, thus being unable to contribute to the function of synaptic transmission. The cellular source of the Ca2+-insensitive mepps has been determined to be the nerve terminal and not the Schwann cells or nerve sprouts. The release process producing slow mepps is generally insensitive to many drugs, ions, and procedures, stimulation being observed with vinblastine, cytochalasin B, and caffeine. Depression of this secretion is effected by uncouplers of oxidative phosphorylation and by a drug (AH5183) which inhibits the vesicular active acetylcholine transport system. It is concluded that the slow mepps are due to an exocytic fusion of unique synaptic vesicles with the plasma membrane near the active zones, in a process insensitive to many intracellular ions and regulators. Since slow mepps are prominent in many pathological conditions of nerve and muscle, it is speculated that they play some role in the recovery or development of synaptic function.
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PMID:Calcium-insensitive miniature endplate potentials at the neuromuscular junction. 284 94

1. LND 623 and LND 796 are two aminosteroid derivatives which exert similar positive inotropic effects to digitalis. Their electrophysiological, toxic and inotropic effects were investigated in both normal and partially K+-depolarized ventricular muscle. 2. In guinea-pig myocardial fibres, LND 623 and LND 796 required tenfold higher concentrations than digoxin to induce the same signs of toxicity; e.g. triggered activities generated from delayed afterdepolarizations, leading to the marked depression of action potential characteristics and inexcitability. These abnormal rhythms and delayed afterdepolarizations were abolished by 1 mM caffeine. The toxic effects were reversed by washout, particularly in the case of LND 796. 3. In normal-K+ solution, LND 623 and LND 796 exhibited concentration-dependent positive inotropic effects on guinea-pig papillary muscle and increased concomitantly resting membrane potential and action potential amplitude. The range of active concentrations (0.1 to 1 microM) of LND 623 was larger than that of digoxin (0.3 to 1 microM). Like digoxin, LND 796 exerted negative inotropic effects at the lowest concentrations (0.01 to 0.03 microM) and positive inotropic effects at high concentrations (1 and 3 microM). 4. In partially K+-depolarized papillary muscle, in the presence of 2 microM histamine, LND 623 (3 and 10 microM) and LND 796 (10 and 30 microM) enhanced the two components P1 and P2 of the contraction and increased slow action potential amplitude, resting potential and maximal rate of depolarization. Low concentrations (0.03 to 0.3 microM) of LND 796 induced negative inotropic effects. beta-Adrenoceptor blockade with atenolol (1 microM) did not modify the activity of LND 623 but significantly enhanced the negative inotropic effect on P2 induced by 1 and 3 microM LND 796 and reduced the positive inotropic effect on P1 and P2 of the highest concentration (30 microM) studied. 5. In the presence of either caffeine (1 mM) or Ca2+-free, Sr2+-rich (3.6 mM) solution, LND 623 and LND 796 produced a positive inotropic effect which was stronger with LND 623. 6. It is suggested that two mechanisms are involved in the inotropic effects of these aminosteroids: (i) an enhanced Ca2 + entry via the slow calcium channels partially brought about by a local release of endogenous catecholamines in the case of LND 796, (ii) an inhibitory effect on Na+-K+ ATPase which, at the highest concentrations, lead to similar signs of cellular toxicity to those described for digitalis drugs. Because of their enlarged positive inotropic range, both aminosteroids may be of interest in the treatment of congestive heart failure.
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PMID:Electrical and mechanical effects of new aminosteroids on guinea-pig isolated ventricular muscle. 285 56

The responses of muscle spindles in the iliofibularis muscle of the cane toad Bufo marinus were examined during constant velocity stretch of the passive muscle. Spindles were found to show an 'initial burst' of high frequency impulses at the onset of stretch. Associated with the initial burst was a steep passive tension rise in the whole muscle, the short-range elastic component (Hill, 1968), called here the passive stiffness. The size of the initial burst was found to depend on muscle length in a similar way as whole-muscle tetanic tension. Repetitive stretch was found to reduce both the initial burst and passive stiffness. The time taken for both to return to their control values was 3 and 10 s respectively. If immediately following repetitive stretch the muscle, and hence the spindle, was held stretched for 3 s, the initial burst in response to a subsequent stretch from a shorter length remained reduced in size for 300 s. The depression could be reversed by a brief period of fusimotor stimulation. Hypertonic Ringer solutions were found to increase the initial burst and passive stiffness, while both were reduced in hypotonic solutions. Low concentrations of caffeine (1.5 mM) produced a similar decrease in both the initial burst and the passive stiffness. Calcium-free Ringer solution left the stiffness unchanged, and increased the whole dynamic response of the spindle. Metabolic exhaustion and poisoning of the muscle caused the initial burst to increase while decreasing the active tension. It is concluded that the initial burst is an intrafusal manifestation of the passive short-range stiffness of extrafusal muscle which is thought to be due to the formation of stable cross-bridges between the actin and myosin filaments of myofibrils.
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PMID:The initial burst of impulses in responses of toad muscle spindles during stretch. 293 46

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

Chronic administration of caffeine to mice (1 mg/ml in drinking water X 14 d) led to a downward shift in the dose-response curve for the locomotor effects of caffeine. Caffeine was also less effective as an antagonist against (-)-(N6-phenylisopropyl)-adenosine (PIA)-induced analgesia in the tail flick assay in these animals. The dose-response curves of PIA for both analgesia and locomotor depression were shifted to the left in animals chronically administered caffeine. In mice chronically administered PIA (1 mg/kg/d X 14 d), the dose-response curves of PIA for both analgesia and locomotor depression were shifted to the right. The dose-response curve for the locomotor effects of caffeine was shifted to the left, and caffeine exhibited greater antagonist activity against the analgesic action of PIA in these animals. There was no change in the Kd or Bmax values of either 3H-PIA or 3H-diethylphenylxanthine (DPX, a potent adenosine receptor antagonist) in mice chronically administered PIA. The Bmax values for both 3H-PIA and 3H-DPX were significantly increased, while the Kd values were not changed in mice chronically administered caffeine. There was no detectable change in the brain levels of either PIA or caffeine in animals chronically treated with either drug. The results demonstrate that chronic administration of caffeine increases the sensitivity of mice to the actions of PIA and vice versa, providing supportive evidence for the interaction of these drugs at the same receptor, which is probably an adenosine receptor.
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PMID:Cross-tolerance studies between caffeine and (-)-N6-(phenylisopropyl)-adenosine (PIA) in mice. 300 86

Effects of alpha-human atrial natriuretic polypeptide (alpha-HANP) on electrical and mechanical properties of smooth muscle cells of the guinea-pig and rabbit renal arteries and of the guinea-pig mesenteric artery were investigated. alpha-HANP (up to 10 nM) modified neither the membrane potential nor resistance of smooth muscle cells of the guinea-pig and rabbit renal arteries. In the guinea-pig mesenteric and renal arteries, alpha-HANP (up to 10 nM) had no effect on the amplitude and facilitation (mesenteric artery) or depression (renal artery) of excitatory junction potentials nor on action potentials. In the guinea-pig renal artery, alpha-HANP (up to 10 nM) had no effect on the depolarization induced by noradrenaline (NA) (up to 10 microM) but markedly inhibited NA-induced contraction. alpha-HANP (10 nM) slightly inhibited the K-induced contraction. In the rabbit renal artery, alpha-HANP (10 nM) inhibited the NA-induced contraction and to a lesser extent the K-induced contraction. In the rabbit renal artery, the effects of alpha-HANP on the release of Ca from the cellular storage by two applications of NA, and its re-storage, were investigated in Ca-free solution containing 2 mM-EGTA. When 5 nM-alpha-HANP was applied before and during the first application of 0.5 microM-NA, the contraction was markedly inhibited but the contraction to a second application of 10 microM-NA was potentiated. If the first dose of NA was 10 microM the effect was very small. Under the same experimental procedures, nitroglycerine (10 microM) showed almost the same effects as alpha-HANP on the NA-induced contractions. When both the first (3 mM) and second (10 mM) contractions were evoked by caffeine in Ca-free solution, alpha-HANP (5 nM) and nitroglycerine (10 microM) inhibited both contractions to the same extent. In the rabbit renal artery, applications of alpha-HANP or nitroglycerine increased the amount of guanosine 3',5'-phosphate (cyclic GMP) in a dose-dependent manner. However, a much higher concentration of nitroglycerine was required (2 X 10(3) times). In the rabbit renal artery, hydrolysis of phosphatidyl inositol 4,5-bisphosphate (PI-P2) activated by 0.5 microM-NA was inhibited by alpha-HANP, in a dose-dependent manner, but activation by 10 microM-NA was not inhibited by alpha-HANP (up to 100 nM).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of vasodilation induced by alpha-human atrial natriuretic polypeptide in rabbit and guinea-pig renal arteries. 302 29

Diet clearly influences neurotransmission. This can be important in grossly undernourished children. It can also be important in children in whom normal homeostatic mechanisms governing food intake are bypassed. Subtle differences in behavior can occur with physiologic variation in food intake. Components of foods can also be used as drugs. Starvation can impair neuronal maturation and can have lasting effects upon behavior and intellectual performance. The extent of starvation's impact upon the brain depends upon whether undernutrition occurred during a critical phase in brain development. Short-term fasting has small, but significant, effects upon intellectual performance. Even when gross malnutrition is not present, subtle changes in diet may modulate brain function. Tryptophan, tyrosine, and choline in the diet are used as precursors for neuronal synthesis of serotonin, dopamine and norepinephrine, and acetylcholine, respectively. It is likely that the brain's sensitivity to certain components of the diet exists to permit monitoring of food intake by the central nervous system. Tryptophan, tyrosine, and choline may be useful in treatment of humans with sleep disorders, pain depression, mania, hypertension, shock, or dyskinesias. Other components of the diet that may affect behavior include food additives, sugar, and caffeine. Food additives may exacerbate hyperactive symptoms in a small proportion of children with attention deficit disorder. Given that there is little potential for harm and that there is a subpopulation that may respond, a trial of a diet that contains no food additives may be a valid diagnostic approach for children with attention deficit disorder who do not respond to stimulant therapy or for children for whom stimulant therapy is not desired. Refined sugar has been blamed for many behavioral abnormalities. Subtle effects of carbohydrate upon behavior have been reported, but the existing data do not support the hypothesis that sucrose or fructose exert special effects upon neurotransmission. Caffeine is easily detected as a stimulant by humans, but it has little effect upon cognitive function. Administration of large doses of vitamins has no beneficial effect in most humans with schizophrenia, attention deficit disorder, autism, Down's syndrome, or drug addiction. Large doses of niacinamide may even be harmful, as they may cause hepatic damage.
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PMID:Dietary influences on neurotransmission. 302 51

The effects of Ro 15-1788, a benzodiazepine antagonist with some agonist properties, were studied on adenosine and adenosine 5'-N-ethyl-carboxamide (NECA)-evoked depressions of rat cerebral cortical neuronal activity. Iontophoretically applied Ro 15-1788 had both antagonistic and potentiative interactions with adenosine. Reductions in the magnitude of adenosine-evoked depressions of firing were evident during the period of Ro 15-1788 application, with a long-lasting potentiative effect becoming apparent upon termination of the Ro 15-1788 application. Depressions of cell firing evoked by NECA, an uptake-resistant analog of adenosine, were antagonized by Ro 15-1788, with no subsequent potentiation. Larger applications of Ro 15-1788 had a depressant action on neuronal firing, which was antagonized by caffeine (20 mg/kg), an adenosine receptor blocker. These results indicate that Ro 15-1788 may be an antagonist at the adenosine receptor as well as a potentiator of the adenosine response. The prolongation of the adenosine depression is likely to be the result of a persistent inhibition of adenosine uptake by Ro 15-1788. These diverse effects on the adenosine response may account for some of the complex behavioral actions of Ro 15-1788.
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PMID:Ro 15-1788 both antagonizes and potentiates adenosine-evoked depression of cerebral cortical neurons. 310 26

The free intracellular calcium concentration of suspensions of isolated rat heart cells was monitored during sequential exposures to halothane and caffeine to evaluate cellular mechanisms of the negative inotropic effect of halothane. The calcium-sensitive, fluorescent dye quin2 was used as the indicator of free intracellular calcium. The acute addition of halothane in concentrations greater than or equal to 0.062 mM (0.19 vol%) to suspensions of quiescent rat heart cells at 37 degrees C caused a transient (approximately 1.5 min) increase in free intracellular calcium concentration. The intracellular calcium concentration after the decay of this transient was not detectably different from that prior to the addition of halothane. Neither the reduction of extracellular calcium from 1 mM to 100 nM, nor the prior addition of verapamil (5 microM) decreased this halothane-induced calcium transient. The transient was completely blocked by the prior addition of 10 mM caffeine, which depletes the sarcoplasmic reticulum of calcium. Also, the prior addition of halothane caused a reduction in the calcium transient due to caffeine. The depression of the caffeine-induced calcium transient by halothane was independent of the time interval (up to 4 min) between the additions of halothane and caffeine. These results indicate that halothane causes a net loss of calcium from the sarcoplasmic reticulum of quiescent rat heart cells. Thus, halothane has a direct effect at the sarcoplasmic reticulum, probably an enhancement of calcium release, which may explain its depression of myocardial contractility.
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PMID:The effect of halothane on the free intracellular calcium concentration of isolated rat heart cells. 317 18

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