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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)
The great taxonomic and prey base diversity of colubrids (non-front-fanged snakes) suggests that their venoms may represent a 'literal gold mine' for scientists eager to find novel pharmacological probes. While pharmacological characterization is lacking for most of these venoms, this is even more so with regard to activity of colubrid venoms on the mammalian autonomic nervous system. This study characterizes the activity of venom from the colubrid, Boiga dendrophila using in vitro smooth muscle preparations and the anaesthetized rat. In the prostatic segment of the rat vas deferens, cumulative additions of venom (1-150 microg ml(-1)) induced concentration-dependent inhibition of electrically evoked (0.2 Hz, 0.3 ms, 70-100 V) twitches. The inhibitory effect of venom (100 microg ml(-1)) was attenuated by 8-phenyltheophylline (8-PT) (20 microM) and 8-cyclopentyl-1, 3-dipropylxanthine (20 microM) but not idazoxan (1 microM), or a combination of ranitidine (0.2 microM) and thioperamide (10 microM). The inhibitory effect of venom (100 microg ml(-1)) was augmented by dipyridamole (10 microM) but abolished by pretreatment with
adenosine deaminase
(7.5 units/100 microl) suggesting that it contains components with adenosine A(1) receptor activity, most likely adenosine. In isolated segments of guinea-pig ileum, venom (10-100 microg ml(-1)) caused concentration-dependent contractions which were inhibited by the
muscarinic receptor
antagonist atropine (0.1 microM) but not by the histamine receptor antagonist mepyramine (0.5 microM). In the anaesthetized rat, venom (5-7.5 mg kg(-1), i.v.) caused a hypotensive effect. Our data suggest that the venom contains components with purinergic and
muscarinic receptor
activity.
...
PMID:The in vitro and in vivo pharmacological activity of Boiga dendrophila (mangrove catsnake) venom. 1559 30
Besides the well-characterized inhibitory effect of adenosine in the gastrointestinal tract mediated by A1 receptors, we recently demonstrated that endogenously generated adenosine facilitates [3H]acetylcholine release from myenteric neurons through preferential activation of prejunctional A2A receptors. The co-existence of both receptor subtypes on cholinergic neurons prompted the question of how does adenosine discriminate between these receptors to regulate synaptic transmission in the longitudinal muscle-myenteric plexus (LM-MP) of the rat ileum. Electrical stimulation of the LM-MP increased the outflow of adenosine, inosine and hypoxanthine. Myenteric neurons seem to be the main source of endogenous adenosine, since blockade of action potentials with tetrodotoxin (1 microM) or omission of Ca2+ (plus EGTA, 1 mM) in the buffer essentially abolished nucleosides release, while adenosine outflow remained unchanged when smooth muscle contractions were prevented by nifedipine (1 microM). Inhibition of ecto-5'-nucleotidase by concanavalin A (0.1 mg ml-1) produced only a moderate decrease (approximately 25%) on adenosine accumulation in the LM-MP, indicating that the extracellular catabolism of released ATP might not be a major source of the nucleoside. Data using the acetylcholinesterase inhibitor, physiostigmine (10 microM), and several subtype-specific
muscarinic receptor
antagonists, 4-DAMP (100 nM), AF-DX 116 (10 microM) and muscarinic toxin-7 (1 nM), suggest that cholinergic motoneurons are endowed with muscarinic M3 autoreceptors facilitating the outflow of adenosine. Surprisingly, bath samples collected after stimulating the LM-MP exhibited a relatively high
adenosine deaminase
(
ADA
) activity (0.60+/-0.07 U ml-1), which increased in parallel with the accumulation of adenosine and its deamination products. Our findings are in keeping with the hypothesis that
ADA
secretion, along with a less-efficient dipyridamole-sensitive nucleoside transport system, may restrict endogenous adenosine actions to the synaptic region channelling to facilitatory A2A receptors activation. Such a local environment may also limit diffusion of exogenously added adenosine towards the active zones, as we showed that this constrain may be overcome by inhibiting
ADA
activity with erythro-9(2-hydroxy-3-nonyl) adenine (50 microM).
...
PMID:Fine-tuning modulation of myenteric motoneurons by endogenous adenosine: on the role of secreted adenosine deaminase. 1656 76
The A1 adenosine and M2 muscarinic receptors exert protective (including energy consumption limiting) effects in the heart. We investigated the influence of
adenosine deaminase
(
ADA
) inhibition on a representative energy consumption limiting function, the direct negative inotropic effect elicited by the A1 adenosinergic and M2 muscarinergic systems, in eu- and hyperthyroid atria. Furthermore, we compared the change in the interstitial adenosine level caused by
ADA
inhibition and nucleoside transport blockade, two well-established processes to stimulate the cell surface A1 adenosine receptors, in both thyroid states. A classical isolated organ technique was applied supplemented with the receptorial responsiveness method (RRM), a concentration estimating procedure. Via measuring the contractile force, the direct negative inotropic capacity of N(6)-cyclopentyladenosine, a selective A1 receptor agonist, and methacholine, a
muscarinic receptor
agonist, was determined on the left atria isolated from 8-day solvent- and thyroxine-treated guinea pigs in the presence and absence of 2'-deoxycoformycin, a selective
ADA
inhibitor, and NBTI, a selective nucleoside transporter inhibitor. We found that
ADA
inhibition (but not nucleoside transport blockade) increased the signal amplification of the A1 adenosinergic (but not M2 muscarinergic) system. This action of
ADA
inhibition developed in both thyroid states, but it was greater in hyperthyroidism. Nevertheless,
ADA
inhibition produced a smaller rise in the interstitial adenosine concentration than nucleoside transport blockade did in both thyroid states. Our results indicate that
ADA
inhibition, besides increasing the interstitial adenosine level, intensifies the atrial A1 adenosinergic function in another (thyroid hormone-sensitive) way, suggesting a new mechanism of action of
ADA
inhibition.
...
PMID:The effect of adenosine deaminase inhibition on the A1 adenosinergic and M2 muscarinergic control of contractility in eu- and hyperthyroid guinea pig atria. 2587 65
