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Query: EC:3.5.4.4 (adenosine deaminase)
 5,136 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study 1) compares the negative chronotropic and dromotropic actions of adenosine in guinea pig, rat, and rabbit hearts; 2) investigates the mechanism(s) for the different responses; and 3) determines the physiological implications. Isolated perfused hearts were instrumented for measurement of atrial rate and atrioventricular (AV) nodal conduction time. Differences in metabolism of adenosine were determined in the absence and presence of dipyridamole (nucleoside uptake blocker) and erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA, adenosine deaminase inhibitor). Dipyridamole plus EHNA decreased adenosine's EC50 for the negative dromotropic effect by 14-fold in guinea pig heart and 1.6-fold in rat heart. This is consistent with the greater number of [3H]nitrobenzylthioinosine binding sites measured in membranes from guinea pig (1,231 +/- 68 fmol/mg protein) compared with rat (302 +/- 31 fmol/mg protein) and rabbit (260 +/- 28 fmol/mg protein) atria. The potency of adenosine to slow atrial rate and prolong AV nodal conduction time was greater in guinea pig than in rat or rabbit hearts. This rank order of potency correlated well with the number of binding sites for the specific adenosine receptor radioligand 125I-aminobenzyladenosine in guinea pig (102 +/- 13 fmol/mg protein), rat (11 +/- 0.5 fmol/mg protein), and rabbit (8 +/- 1 fmol/mg protein) atrial membranes. Hypoxia increased the rate of adenosine release by severalfold and caused slowing of heart rate and AV block. In spontaneously beating hearts, the main effect of hypoxia was a slowing of ventricular rate, which in the guinea pig heart was due to AV block and in the rat heart to atrial slowing. In atrial paced hearts, hypoxia caused a marked prolongation of AV nodal conduction time in guinea pig (39 +/- 4 msec) and rabbit (29 +/- 5 msec) hearts, but only small effect in rat hearts (10 +/- 2 msec). The differences in response to hypoxia could be accounted for by the species-dependent differences in the 1) amount of adenosine released and metabolized, 2) sensitivity of the hearts to adenosine, and 3) dependency of AV nodal conduction on atrial rate. The findings indicate that the results from physiological or pharmacological studies on adenosine in one species may not be applicable to others, and the ultimate effect of adenosine and hypoxia is to slow ventricular rate.
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PMID:Species-dependent effects of adenosine on heart rate and atrioventricular nodal conduction. Mechanism and physiological implications. 220 18

Micromolar concentrations of adenosine were found to potentiate the release of histamine and leukotriene C4 (LTC4) from immunologically activated human lung mast cells (HLMC). Structurally modified congeners of adenosine including 5'-N-ethylcarboxamideadenosine (NECA) and R-phenylisopropyladenosine (R-PIA) also potentiated mediator release. A rank order of potency was established where NECA greater than R-PIA for the potentiation of both LTC4 production and histamine secretion. Mast cells isolated by either enzymatic or mechanical means from human lung parenchyma were both similarly responsive to the modulatory effects of adenosine and analogues, and the potency series of NECA greater than R-PIA also applied. Moreover, histamine release induced by the calcium ionophore A23187 was augmented by NECA, R-PIA, and adenosine and in that potency order. Dipyridamole, an agent thought to impede the intracellular uptake of adenosine, failed to reverse the nucleoside's enhancement of IgE-mediated secretion. The irreversible inhibitor of adenosine deaminase, deoxycoformycin, did not modify the adenosine enhancement of stimulated secretion. Low concentrations of methylxanthines, which antagonize responses mediated at cell surface adenosine receptors, were inconsistent in their effects. Theophylline modestly reversed the adenosine-induced potentiation of IgE-mediated LTC4 generation but not histamine release. Studies employing 8-phenyltheophylline were complicated by the methylxanthine possessing inhibitory properties of its own at concentrations expected to antagonize a nucleoside-mediated effect. In total, these results suggest that the response of HLMC to adenosine describes properties most consistent with an A2/Ra-like process, although an interaction via an, as yet, uncharacterized cell surface receptor cannot be excluded.
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PMID:Adenosine potentiates mediator release from human lung mast cells. 246 85

1. The effects of adenosine deaminase, inosine, alkylxanthines (8-phenyltheophylline (8-PT), theophylline and isobutylmethylxanthine (IBMX], dipyridamole, alpha, beta-methylene ADP (AOPCP) and ATP analogues (alpha, beta-methylene ATP and beta, gamma-methylene ATP) on evoked end-plate potentials (e.p.p.s) were investigated in innervated sartorius muscles of the frog, in which twitches had been prevented with tubocurarine. The effects of 8-PT and IBMX on the amplitude and quantal content of e.p.p.s were also investigated in innervated sartorius muscles of the frog, in which twitches had been prevented with high-magnesium solutions. 2. Adenosine deaminase reversibly increased the amplitude of e.p.p.s and prevented the reduction caused by exogenously applied adenosine on e.p.p. amplitude. The increase caused by adenosine deaminase was equivalent to the decrease caused by 12 +/- 5.8 microM-adenosine on e.p.p. amplitude. 3. Inosine, the product of adenosine deamination, was virtually devoid of effect on e.p.p.s. 4. The adenosine receptor antagonists at the frog neuromuscular junction, 8-PT and theophylline, increased in a concentration-dependent manner the amplitude of e.p.p.s in the presence of tubocurarine. 8-PT increased the amplitude and quantal content of e.p.p.s in the presence of high magnesium. IBMX, which does not behave as an adenosine receptor antagonist at the frog neuromuscular junction, decreased the amplitude of e.p.p.s in the presence of tubocurarine or high-magnesium solutions. 5. Dipyridamole, an adenosine uptake blocker, decreased the amplitude of e.p.p.s, and in a concentration that did not affect neuromuscular transmission potentiated the depressing effect of adenosine, but not that of 2-chloroadenosine, on the amplitude of e.p.p.s. 6. AOPCP, an inhibitor of 5'-nucleotidase, increased the amplitude of e.p.p.s and markedly attenuated the depressing effect of ATP, but not that of adenosine, on e.p.p. amplitude. 7. The ATP analogue, alpha, beta-methylene ATP, which is not a substrate for 5'-nucleotidase, was virtually devoid of effect on e.p.p.s. beta, gamma-Methylene ATP, which can be a substrate for 5'-nucleotidase, mimicked the depressing effect of ATP on e.p.p. amplitude, an effect which was also reduced by AOPCP. 8. It is concluded that in conditions in which the initial quantal content is assumed to be normal (1) endogenous adenosine depresses neuromuscular transmission, (2) at the neuromuscular junction adenosine is inactivated through a dipyridamole-sensitive uptake process, and (3) released adenine nucleotides might contribute to the pool of endogenous adenosine which modulates neuromuscular transmission.
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PMID:On the role, inactivation and origin of endogenous adenosine at the frog neuromuscular junction. 282 Dec 40

The ability of adenosine and structurally-related compounds to inhibit epileptiform activity induced by bicuculline in the CA3 region of the hippocampal slice of the rat was examined. Bath application of all purinoceptor agonists tested reduced the frequency of generation of burst potentials. Analysis of dose-response curves yielded the following IC50 values: adenosine, 1.5 microM; 2-chloroadenosine, 0.144 microM; 5'-(N-ethyl)carboxamidoadenosine, 30.2 nM; L-phenylisopropyladenosine, 12.1 nM; cyclohexyladenosine, 7.9 nM. Theophylline (30 microM) increased the rate of bursting and antagonized the effect of exogenous adenosine. Dipyridamole (0.03-1 microM) reduced the occurrence of burst firing. In slices untreated with bicuculline, theophylline (30 microM) and adenosine deaminase (10 micrograms ml-1) induced bursting activity. These results demonstrate that purinoceptor agonists can suppress epileptiform activity in the hippocampus and suggest that adenosine may act as an endogenous anticonvulsant.
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PMID:Adenosine inhibits epileptiform activity arising in hippocampal area CA3. 301 Nov 69

Calcium entry blocking activities of adenosine and its potentiating compounds (dipyridamole, lidoflazine and dilazep) were studied in potassium (100 mmol/l) depolarized, dog, large coronary artery strips, in comparison to nifedipine, verapamil and diltiazem. Apparent pA2 values were calculated by using concentration-response curves for calcium before and 30 min after the addition of each dilator drug. The order of potency (using both pA2 and IC50 values) for the calcium entry blocking effect was: nifedipine greater than verapamil greater than diltiazem greater than lidoflazine greater than dilazep. Dipyridamole and adenosine had negligible calcium entry blocking activities (about 10,000 times less potent than verapamil). The calcium entry blocking activity of verapamil (using pA2 values) was 39.8 times less potent than nifedipine, and 3.6, 21.4 and 97.7 times more potent than diltiazem, lidoflazine and dilazep, respectively. The maximum relaxations induced by adenosine (3.7 X 10(-4) mol/l) and dipyridamole (5 X 10(-5) mol/l) were less than 20% that of 3 X 10(-4) mol/l papaverine. However, the other test drugs caused 80-90% relaxation under similar conditions. The relaxing effect of adenosine was inhibited by 8-phenyltheophylline (adenosine receptor antagonist) and potentiated by EHNA (an adenosine deaminase inhibitor), while dilazep-induced relaxation was not affected by these drugs. These findings suggest that the calcium entry blocking effect of dilazep in dog, large coronary artery strips is not mediated through adenosine.
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PMID:Calcium entry blocking activity of dilazep in dog coronary artery. 301 2

The possibility that endogenously released adenosine, a potent vasodilator, is involved in the increase in cerebral blood flow (CBF) response to hypercapnia has been investigated in an anesthetized, paralyzed rat model. The left retroglenoid vein was cannulated and cerebral venous blood flow measured with a drop counter. Animals were ventilated with a 40% oxygen, 60% nitrogen gas mixture. At 20 min intervals, at a constant rate of flow, the inspired gas mixture was altered to 10% carbon dioxide, 40% oxygen, 50% nitrogen for periods of between 30-90 sec. This brief hypercapnic challenge induced a rapid increase in CBF in the absence of any change in MABP. An involvement of adenosine in this response was demonstrated using an adenosine antagonist, caffeine, an uptake inhibitor, dipyridamole and an adenosine deaminase inhibitor, deoxycoformycin. Caffeine (10 and 20 mg/kg i.p.) 15 min prior to hypercapnic challenges significantly decreased the peak increases in CBF. Dipyridamole (0.1 mg/kg) and deoxycoformycin (0.1 microgram/kg) enhanced the peak increases in flow. These results are consistent with an important role for adenosine in coupling PCO2 to cerebral blood flow.
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PMID:An involvement of adenosine in cerebral blood flow regulation during hypercapnia. 349 49

In isolated segments of guinea-pig ileum, amrinone (0.3 mM-0.3 M) caused a transient contraction followed by a concentration-dependent relaxation. Theophylline (0.1-0.5 mM) mimicked the effects of amrinone but apparently inhibited relaxation induced by the latter. However the total decrease of muscle tension measured in preparations exposed to amrinone before and after theophylline treatment was quantitatively comparable. Dipyridamole (0.1 microM) potentiated the relaxing effect of amrinone. The stimulatory response of the ileum to high concentrations of adenosine (10-50 mM) was abolished by amrinone. In preparations treated with adenosine deaminase (10 U/ml) the basal tone was decreased and both amrinone and theophylline were ineffective. In rat ileum, amrinone exerted a marked relaxing effect that was abolished by adenosine deaminase. Thus amrinone appears to cause relaxation of intestinal smooth muscle from different species by hindering the stimulatory effect of endogenous adenosine. The possible intracellular localization of the amrinone-adenosine interaction site is discussed.
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PMID:Possible role of adenosine in the relaxant effect of amrinone on guinea-pig ileum. 361 Nov 43

The action of adenosine on the myenteric plexus-longitudinal muscle strips from guinea-pig ileum to high frequency electrical field stimulation (10 Hz) was investigated. Electrically induced contractions were reduced markedly by tetrodotoxin (0.2 microM) and atropine (1 microM), and partially by noradrenaline (3 microM) and morphine (3 microM). Adenosine, adenosine 5'-monophosphate (AMP) and adenosine triphosphate (ATP) produced a concentration-dependent inhibition of the high frequency contractions over the range of 0.1-100 microM, the most potent being adenosine. The concentration-response curve for adenosine was significantly shifted to the left by dipyridamole (10 nM), while dipyridamole at higher concentrations (30 nM-10 microM), depressed the contraction markedly by itself. Dipyridamole decreased [3H]-adenosine uptake into strips of ileum in a concentration-dependent manner. There was a significant correlationship between the reduction of adenosine uptake and the inhibition of the contraction induced by dipyridamole (r = 0.970). In strips desensitized to adenosine or treated with adenosine deaminase, the inhibitory effect of dipyridamole was significantly reduced. The present investigation revealed that adenosine depressed responses of guinea-pig ileum to high frequency electrical stimulation and suggested that the inhibitory effect of dipyridamole may be closely associated with the behaviour of endogenous adenosine or related compounds.
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PMID:Adenosine and dipyridamole: actions and interactions on the contractile response of guinea-pig ileum to high frequency electrical field stimulation. 398 34

Adenosine (Ado, 10 microM) did not inhibit ADP-induced human platelet aggregation in whole blood. However, if the blood was preincubated with dipyridamole (10 microM), a potent inhibitor of the erythrocytic nucleoside transport system (NTS), Ado acted as a strong inhibitor of platelet aggregation. Similarly, Ado inhibited platelet aggregation in whole blood in the presence of other potent NTS inhibitors, dilazep (1 microM) and p-nitrobenzylthioinosine (NBMPR, 1 microM). RA 233 (10 microM), an analog of dipyridamole which is a potent inhibitor of platelet cAMP phosphodiesterase (PDE), did not evoke the Ado effect in whole blood. However, in platelet-rich plasma (PRP), RA 233 potentiated strongly Ado-mediated inhibition, whereas dipyridamole, dilazep and NBMPR were without activity. 5'-Methylthioadenosine (MTA), an Ado receptor antagonist, reversed the inhibition produced by a nucleoside transport system inhibitor plus Ado in whole blood. Dipyridamole (10 microM), dilazep (1 microM) or NBMPR (1 microM) blocked [14C]Ado (10 microM) uptake by blood cells in whole blood, whereas RA 233 (10 microM) was not effective. The combination of 2'-deoxycoformycin (dCF, 5 microM), a tight-binding inhibitor of adenosine deaminase (ADA), plus 5-iodotubercidin (ITu, 10 microM), a potent inhibitor of adenosine kinase (Ado kinase), gave comparable Ado-mediated inhibition of platelet aggregation in whole blood as was obtained when the blood was pretreated with dilazep. These studies suggest that the in vivo antiplatelet actions of drugs such as dipyridamole and dilazep result from their abilities to block erythrocytic Ado uptake and subsequent metabolism, thus elevating the extracellular steady-state concentration of the physiologically occurring, antiplatelet agent, Ado.
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PMID:Role of adenosine uptake and metabolism by blood cells in the antiplatelet actions of dipyridamole, dilazep and nitrobenzylthioinosine. 406 70

ATP, adenosine, adenine and inosine exhibited similar potency in relaxing transverse strips of guinea-pig trachea. Dipyridamole potentiated responses to ATP and adenosine equally but antagonized responses to inosine and failed to affect responses to adenine. In dipyridamole-treated preparations, adenosine deaminase markedly reduced responses to ATP and adenosine; responses to adenine and inosine were unaffected. The results suggest that ATP acts via its adenosine metabolite and that inhibitory ATP receptors are absent.
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PMID:Purine receptors in trachea: studies with adenosine deaminase and dipyridamole. 609 99


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