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)

The mechanism(s) of ryanodine-induced contracture of skeletal muscle were studied in skinned fibers from soleus (SL) and adductor magnus (AM) (slow- and fast-twitch skeletal muscles) of rabbits. Pieces of SL or AM were homogenized (sarcolemma disrupted). Single fibers were dissected from the homogenate and mounted on photodiode force transducers. At concentrations 1-50 microM, ryanodine slightly but significantly increased the submaximal Ca2+-activated tension development of the contractile proteins in skinned fibers of AM but not of SL. Ryanodine in uptake phase or release phase increased caffeine-induced tension transients in the SR of both muscle types; however, no dose-response relation was found. Ryanodine greater than or equal to 1 microM decreased, however, the second control tension transients in a dose-dependent manner. The depression was nearly irreversible and "activity"-dependent. The concentrations of ryanodine that inhibited the second control tension transients by 50% were 10 microM and 5 microM for SL and AM, respectively, following ryanodine administration in the release phase, and 100 microM and 30 microM, respectively, for these preparations after the drug was present in the uptake phase. The quantity of calcium released from the SR by Triton X-100 and caffeine in the second control tension transient was unchanged by ryanodine at all concentrations tested when compared with that of the absence of ryanodine. The present findings suggest that the ability of ryanodine to increase immediate calcium release from the SR, and in AM but not SL, to increase the sensitivity of the contractile proteins to Ca2+ underlies the contracture caused by this agent in intact skeletal muscles.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of ryanodine on skinned skeletal muscle fibers of the rabbit. 343 53

We identified changes in hippocampal afterdischarge activity that follow administration of subcon vulsant doses (one-half the convulsant dose) of analeptic agents with known pharmacological action. Long-Evans rats (N = 104) with chronic bipolar electrodes implanted in the dorsal hippocampus, were injected i.p. with saline, caffeine (75 mg/kg), picrotoxin (2 mg/kg), or pentylenetatrazol (20 mg/kg) in 1 ml/kg volume 15 min before testing. Body temperature was measured at the beginning of the session to determine if significant change was associated with any of the treatments. Beginning at 10 microA, current (2-s train of 50-Hz biphasic pulses) was applied to hippocampal electrodes and intensity was increased in 10-microA steps until the afterdischarge sequence was elicited. Afterdischarge threshold, wet dog shake frequency, and the duration of the primary afterdischarge, the postprimary depression, and the rebound afterdischarge were measured. Caffeine administration produced a dramatic prolongation of the rebound afterdischarge, without affecting the duration of the primary afterdischarge. All other afterdischarge variables were unchanged by the caffeine treatment. Because caffeine blocks adenosine receptors at physiologic concentrations, adenosine action is implicated in the termination of the second, but not the first, spike train. Picrotoxin and pentylenetetrazol had no influence on the EEG, despite evidence of slight (1 degrees C) hypothermia. A decrease in wet dog shake frequency, however, was associated with picrotoxin administration. As picrotoxin and pentylenetetrazol are known gamma-aminobutyric acid (GABA) antagonists, the results suggest that GABA is involved minimally, if at all, in the hippocampal afterdischarge sequence.
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PMID:Differential effects of caffeine, picrotoxin, and pentylenetetrazol on hippocampal afterdischarge activity and wet dog shakes. 356 62

Effects of isepamicin sulfate (HAPA-B), a new aminoglycoside antibiotic, on the neuromuscular transmission were studied in rats and compared with those of amikacin (AMK) or other aminoglycoside antibiotics. The HAPA-B, as well as other aminoglycoside antibiotics, depressed the twitch response of diaphragm to phrenic nerve stimulation in vitro. The depression effects of different drugs were compared and graded in the order of strengths of blocking action as: netilmicin (NTL) greater than gentamicin (GM) greater than streptomycin (SM) greater than kanamycin (KM) greater than AMK greater than HAPA-B. The IC50 (concentration which inhibited the response by 50%) of HAPA-B was 3.6 X 10(-3) g/ml. The neuromuscular blockade produced by HAPA-B was reversed by CaCl2, KCl or caffeine but not by neostigmine. D-Tubocurarine or MgCl2 augmented the neuromuscular effects of HAPA-B. Intramuscular (400 mg/kg) and intravenous (100 mg/kg) injections of HAPA-B did not affect the twitch response of gastrocnemius muscle to sciatic nerve stimulation in situ. Intravenous injection of 200 mg/kg caused death in some rats and depression of the twitch response in others. Intravenous AMK produced no significant effect on the twitch response at 50 mg/kg and caused death at 100 mg/kg. GM and SM caused death or significant degree of depression of the twitch response at intravenous doses of 50 mg/kg. In experiments of intravenous drug infusion for 60 minutes, the twitch response was depressed by HAPA-B at 400 mg/kg/hr and by AMK at 200 and 400 mg/kg/hr. In conclusion, HAPA-B has a neuromuscular blocking action presumably at the nerve terminal. However, its action was the weakest among the aminoglycoside antibiotics tested.
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PMID:[The neuromuscular blocking activity of isepamicin sulfate (HAPA-B) compared with other aminoglycoside antibiotics]. 358 26

Adenosine modulates a variety of physiological functions through interaction with A1 and A2 adenosine receptors, where agonists mediate inhibition and stimulation, respectively, of adenylate cyclase. In the cardiovascular system, A2 receptors mediate vasodilation and reduction in blood pressure, while A1 receptors mediate cardiac depression. The involvement of adenylate cyclase in these responses remains unresolved. Adenosine analogs in particular the N6-substituted compounds are more potent at A1 receptors than at A2 receptors. The subregion of the adenosine receptor that interacts with the N6-substituent is different for A1 and A2 receptors, particularly with respect to phenyl interactions, bulk tolerance and stereoselectivity. A series of para-substituted N6-phenyladenosines have been synthesized based on a "functionalized congener" approach in which a chemically reactive group, such as an amine or carboxylic acid, is introduced at the terminus of a chain. From the "functionalized congener" are synthesized a variety of conjugates each containing a common pharmacophore. Certain of the adenosine conjugates are highly selective for A1 receptors. Xanthines are classical antagonists for adenosine receptors for many of their pharmacological actions may be due to blockade of adenosine receptors. Caffeine and theophylline are virtually non-selective for A2 and A2 receptors. Replacement of the methyl groups of theophylline with n-propyl or larger alkyl groups yields xanthines with selectivity for A1 receptors, particularly when combined with an 8-phenyl moiety. Most 1,3-dialkyl-8-phenyl xanthines are very insoluble, but incorporation of polar aryl substituents, such as sulfo or carboxy to increase solubility, results in marked reduction in potency and selectivity. A new series of more hydrophilic 1,3-dipropyl-8-phenylxanthines has been synthesized using the "functionalized congener" approach. Certain conjugates of 8-[4-(carboxymethyloxy)phenyl 1]1,3-dipropylxanthine display A1 selectivity in biochemical and cardiovascular models. Certain analogs of caffeine in which the methyl group at the 1- or 7-position is replaced with a propargyl or propyl group display selectivity for A2 receptors. The profile of a series of adenosine analogs or of xanthine antagonists can be used to define the nature of adenosine receptors.
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PMID:Adenosine receptors: development of selective agonists and antagonists. 358 7

Nociceptive neurons in the dorsal horn of the cat spinal cord are depressed by vibration applied to the ipsilateral hind limb. The present study investigated the pharmacological properties of this depression because of the possibility that it represents the neural basis at the spinal level for the analgesic effects of vibration in humans. Experiments were done in cats anesthetized with sodium pentobarbital and acutely spinalized at the first lumbar level. Extracellular recordings were made from nociceptive neurons in the lower lumbar segments. The depression of these neurons induced by vibration to the hindlimb was attenuated by administration of the P1-purinergic (adenosine) receptor antagonist, caffeine (20-60 mg/kg i.v.); the maximum attenuation was 100%. Effects of caffeine began within 2 min after the start of injection (1-3 min injection period), were greatest in the 10 min period after the end of injection and lasted for up to 2 hr. Importantly, another P1-purinergic receptor antagonist, which does not cross the blood-brain barrier, 8-sulphophenyltheophylline (8-16 mg/kg), had no effect on the depression when given intravenously (n = 5); however, when administered by iontophoresis 8-sulphophenyltheophylline blocked the depression in 2 of 6 units. Dipyridamole (1.0-2.0 mg/kg i.v.), an inhibitor of adenosine uptake, potentiated the depression in 2 of 5 cases. These results prompt us to suggest that depression induced by vibration may be mediated by adenosine via the activation of P1-purinergic receptors. On the other hand, the GABAA antagonist, bicuculline, failed to attenuate vibration-induced depression when administered either intravenously (0.2-0.4 mg/kg; n = 5) or by iontophoresis (n = 10) and the glycine antagonist, strychnine (0.2-0.6 mg/kg; n = 3) and the opiate antagonist, naloxone (0.1-0.4 mg/kg; n = 4) were similarly ineffective. These findings suggest that vibration-induced depression of these units occurs without involvement of bicuculline-sensitive GABA receptors, strychnine-sensitive glycine receptors and naloxone-sensitive opiate receptors. In view of the fact that vibration-induced depression is evoked synaptically, this study is the first to demonstrate in the central nervous system a synaptic response which is mediated by adenosine. In addition, we suggest that the analgesic effects of vibration in humans may be mediated at the spinal level by activation of P1-purinergic receptors.
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PMID:Evidence that adenosine mediates the depression of spinal dorsal horn neurons induced by peripheral vibration in the cat. 367 Jun 2

Ryanodine and caffeine have the ability to diminish sarcoplasmic reticulum (SR) calcium release in cardiac muscle cells. To determine whether these agents also share a common mechanism of action, we compared their effects on rat papillary muscles using two different experimental approaches. First, using the protocol of Jundt et al. (19), in which quiescent rat papillary muscles were exposed to sodium-free solutions, we found that 1 microM ryanodine decreased resting force, phosphorylase alpha activity, and the scattered light intensity fluctuations (SLIF) due to calcium-dependent myofilament interactions. In contrast, 10-20 mM caffeine increased both resting force and phosphorylase alpha levels and initially increased then decreased SLIF to below detectable levels. In a second series of experiments, contractures were elicited by exposing rat papillary muscles to 125 mM KCl. Pretreatment with ryanodine (1 microM) or caffeine (10 mM) abolished the initial phasic component of this response, while increasing the subsequent tonic component. These effects were different from those of isoproterenol, which decreased tonic contracture force. The depression of twitch force produced by ryanodine developed more rapidly in the presence of 125 mM KCl than in normal buffer, suggesting that the negative inotropic effects of this agent may, in part, depend on membrane depolarization. The results of these experiments suggest that ryanodine and caffeine affect SR calcium release through different mechanisms of action. Ryanodine appears to decrease, while caffeine initially increases, cytoplasmic calcium. Once these effects have occurred, the alterations of SR function produced by both agents can similarly alter other inotropic responses.
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PMID:Comparison of effects of ryanodine and caffeine on rat ventricular myocardium. 370 54

Rats were implanted with chronic indwelling cannulae into the lateral cerebral ventricle. After recovery from surgery, acute experiments on blood pressure were conducted under methoxyflurane/nitrous oxide anesthesia. Rats were injected intracerebroventricularly with two adenosine analogs, 5'-N-ethylcarboxaminidoadenosine (NECA) and (-)-N-(1-methyl-2-phenylethyl)adenosine(L-phenylisopropyladenosine) (L-PIA), and the effects on blood pressure and heart rate recorded. Both analogs produced dose-related reductions in blood pressure and heart rate with L-PIA producing a more potent depression of heart rate than NECA. These effects on blood pressure and heart rate were antagonized by parenteral injections of caffeine. In separate experiments, the responses of blood pressure and heart rate to microinjection of NECA into the brainstem of rats anaesthetized with methoxyflurane/nitrous oxide were also examined. Microinjection of 2.7 nmol/kg into the fourth ventricle in the region of the area postrema produced a profound and long-lasting depression of blood pressure and heart rate. These results show that central injections of analogs of adenosine can influence the areas of the central nervous system involved in the control of cardiovascular function.
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PMID:The effects of central injections of adenosine analogs on blood pressure and heart rate in the rat. 374 19

The skeletal muscle relaxant properties of an aqueous extract of Portulaca oleracea were examined on the twitch and tetanus tension evoked by electrical stimulation using the rat phrenic nerve-hemidiaphragm and frog sciatic nerve-sartorius muscle preparations and on contractures induced by nicotinic agonists using the rat rectus abdominis muscle preparation. The extract (5-50 X 10(-4) g/ml) produced a dose-dependent initial enhancement, followed by a longer lasting depression of twitch tension as induced by indirect electrical stimulation (NS) as well as direct stimulation (MS) of the diaphragm and sartorius muscle preparations. The augmentation of twitch amplitude (MS) produced by the extract was not significantly antagonised or potentiated by d-tubocurarine (5-50 X 10(-8) M) or physostigmine (5-50 X 10(-8) M) at concentrations which blocked or potentiated NS-induced twitch contractions. Furthermore, tetrodotoxin (5 X 10(-7) g/ml) alone or in combination with d-tubocurarine did not significantly attenuate extract-induced augmentation of twitch contractions to MS. In addition, the depression of twitch tension due to NS was not antagonised by physostigmine but was reversed and/or abolished by Ca2+ (2-5 X 10(-3) M) or potassium thiocyanate (1 X 10(-3) M). Contractures induced by K+ (80 mM) or by tetanic stimulation (20-60 Hz) were significantly reduced by the extract whereas, contracture induced by caffeine (2.5-6.0 mM) was not affected. Ca2+-free Tyrode's solution and EDTA (1.25 X 10(-3) g/ml) potentiated extract-induced depression of twitch tension to MS. On the rectus abdominis, contractures induced by nicotinic agonists (acetylcholine, 3-500 X 10(-7) M; carbachol, 5-500 X 10(-7) M and nicotine, 5-500 X 10(-8) M) were significantly attenuated and/or abolished by the extract (5-10 X 10(-3) g/ml). These observations indicate that the aqueous extract possesses unique skeletal muscle relaxant properties which do not appear to involve interference with cholinoceptor mechanism(s). It appears that the mechanism of action of the extract may involve interference with Ca2+ mobilization in skeletal muscle.
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PMID:Skeletal muscle relaxant properties of the aqueous extract of Portulaca oleracea. 379 17

Two inbred mouse strains, SWR and CBA, differed significantly in their susceptibility to acute dose dependent theophylline- and caffeine-induced stimulation of locomotor activity. The efficacy of both methylxanthines was reduced in the SWR strain compared to the CBA strain. When brain levels of theophylline were determined at a dose (32 mg/kg IP) which gave maximal behavioral separation of the two strains, no significant differences were found between them (SWR levels 12.5 +/- 1.9, CBA levels 14.3 +/- 1.7 micrograms/g wet weight brain). The dose dependent ability of several adenosine agonists (N6-cyclohexyladenosine, (-)-N6-phenylisopropyladenosine, 5'-N-ethylcarboxamidoadenosine) to depress locomotor activity was investigated. SWR mice were found to be significantly more sensitive to NECA-induced depression of locomotor activity and the NECA-induced hypothermia than were CBA mice (respective ED50 values for inhibition of activity, 11.6 and 30.5 nmoles/kg IP). No differences were found in brain [3H]-NECA levels at doses which produced marked differences in behavioral effects between the two strains. The differences in adenosine agonist sensitivity between the strains were both agonist- and behavior-specific. These data indicate that an inherited alteration in behavioral responsiveness to methylxanthine administration can be inversely associated with inherent alterations in susceptibility to the action of specific adenosine analogs. An adenosine A-2 receptor sub-class may be involved in these changes in in vivo pharmacological susceptibility to the action of both methylxanthines and adenosine agonists on locomotor activity.
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PMID:Inherent hyporesponsiveness to methylxanthine-induced behavioral changes associated with supersensitivity to 5'-N-ethylcarboxamidoadenosine (NECA). 380 30

The present study intended to investigate the effects of 2-[2-methoxy-4-(methylsulfinyl)phenyl]-3H-imidazo[4,5-b]pyridine (sulmazole, AR-L 115 BS) on mechanical performance of rat myocardial fibers under hypoxia, and subsequent reoxygenation. Because of a possible caffeine-like mechanism of action of sulmazole similar experiments were performed with theophylline and the results compared. 1. Under normoxic conditions, sulmazole and theophylline displayed a positive inotropic action with acceleration of relaxation at small concentrations (sulmazole: 6.4 mumol l-1; theophylline 7.35 mumol l-1). Increasing doses led to a negative inotropic effect with slackened relaxation and loss of its load sensitivity (up to 390 mumol l-1 for sulmazole; up to 350 mumol-1 for theophylline). In agreement with other reports, the dose-effect curve was shifted towards low concentrations. 2. During ischemic crisis, therapeutic doses of sulmazole (6 mumol l-1) and theophylline (7 mumol l-1) induced no additional depression of contractility and protected relaxation. During subsequent reoxygenation, better recovery of contractility was observed without any very significant improvement of relaxation. 3. During reoxygenation beyond 120 mumol l-1, increasing doses of sulmazole depressed contractility. An additional depressive effect on mechanical performance was observed during hypoxia only for the highest dose (390 mumol-1).
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PMID:Sulmazole effects on mechanical performance of hypoxic and reoxygenated isolated mammalian myocardium. 381 19


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