Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Theophylline (2.5 mM) did not influence the spontaneous release of histamine but inhibited histamine release induced by antigen, compound 48/80 or phosphatidylserine. The effect on 48/80-induced histamine release could not be reversed by increasing extracellular Ca2+. Exogenous adenosine (10(-8) to 10(-4) M) did not influence spontaneous histamine release or 48/80-induced release but potentiated antigen-induced release. The adenosine potentiation was competitively inhibited by theophylline in concentrations (10(-5) to 10(-4) M) lower than those required to inhibit antigen-induced histamine release in the absence of adenosine. In order to see if endogenous adenosine levels are high enough to potentiate an anaphylactic histamine release in vivo, adenosine was determined in mast cell incubates and in plasma from 4 different strains of rat. The levels were 0.18 to 0.99 microM in plasma, which is sufficient to cause significant potentiation of histamine release, but only 3 x 10(-8) M in mast cell incubates. Theophylline (2.5 mM) increased cAMP levels about 100%, whereas adenosine (10(-5) M) had little effect on cAMP and cGMP levels. However, when incubated together, adenosine could inhibit the theophylline-induced increase in cAMP levels but not the inhibition of histamine release. It is concluded that the effect of low concentrations of theophylline could be due partly to antagonism of adenosine effects. In addition, in higher doses, theophylline appears to exert an inhibitory action that is unrelated to cyclic nucleotides, extracellular calcium and adenosine.
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PMID:On the mechanism by which theophylline inhibits histamine release from rat mast cells. 618 49

When added to Ca2+-free Hanks' solution, Ca2+ (0.1-2.5 mM) had no significant effect on antigen-induced histamine release from rat mast cells, but Sr2+ (1.0-3.0 mM) dose-dependently increased the release. Ba2+ (1.0 and 2.0 mM) also enhanced the release. Ca2+ and Ba2+ inhibited compound 40/80-induced histamine release, in a dose-dependent manner. In ordinary Hanks' medium, theophylline and 3-isobutyl-1-methylxanthine (IBMX) dose-dependently inhibited the antigen-induced histamine release but these drugs were ineffective in Ca2+-free medium. Theophylline (1.0 mM) also inhibited compound 48/80-induced histamine release in the presence but not absence of Ca2+. There was an optimal Ca2+ concentration for the theophylline effect. Sr2+ but not Ba2+ could substitute for Ca2+ in supporting the theophylline effect. Theophylline (1.0 mM) and IBMX (1.0 mM) increased mast cell cyclic AMP levels both in the presence and absence of Ca2+. These results suggest that Ca2+ is required in the interaction of theophylline and specific sites on mast cells or in the mast cell response to theophylline which probably does not involve the cyclic AMP increase and is linked to the inhibition of histamine release.
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PMID:Calcium requirement for the inhibition by theophylline of histamine release from mast cells. 619 Nov 69

Adenosine, at physiological concentrations, may modulate histamine release from mechanically dispersed human lung mast cells. Addition of adenosine to the dispersed mast cells at times up to 5 min before immunological challenge with anti-human IgE inhibited histamine release. When added after this time adenosine caused a small potentiation of immunological histamine release, maximum potentiation occurring with addition of adenosine 5 min after challenge, coincidental with the end of the rapid phase of histamine release. Both inhibition and potentiation of histamine release were more pronounced with low levels of immunological challenge. Theophylline, 8-phenyltheophylline, dipyridamole and analogues of adenosine were used to determine the site of action of adenosine on mast cell mediator release. Theophylline and 8-phenyltheophylline displaced the concentration-response lines for both inhibition and potentiation of mediator release by adenosine to the right whilst dipyridamole, 1 microM, was without significant effect. This suggests that both effects result from interaction of adenosine with cell surface receptors. This was confirmed by demonstrating that the P-site agonist 2',5'-dideoxyadenosine produced only inhibition of histamine release, an effect which was inhibited by dipyridamole but not by theophylline. The rank potency order of adenosine analogues, NECA much greater than adenosine greater than or equal to L-PIA greater than or equal to D-PIA in both inhibiting and potentiating immunological histamine release suggests that both effects are mediated through activation of cell surface A2-purinoceptors. Since adenosine is released into the circulation of asthmatic subjects following bronchial provocation with antigen, causes bronchoconstriction and has the ability to modulate mast cell histamine release, this nucleoside should be considered as an additional inflammatory mediator of allergic reactions.
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PMID:Adenosine inhibits and potentiates IgE-dependent histamine release from human lung mast cells by an A2-purinoceptor mediated mechanism. 621 89

Mice rendered adenosine deaminase-deficient manifest an 'asthma' phenotype in the lungs that includes mast cell degranulation, eosinophilia, mucus hypersecretion and bronchial hyperresponsiveness. These changes can be reversed by enzyme therapy with adenosine deaminase, and attenuated by theophylline. Theophylline also blocks the pro-inflammatory effects of adenosine in allergen-challenged mice. Adenosine A(2A) receptors are an essential part of the physiological negative feedback mechanism for limitation and termination of both tissue-specific and systemic inflammatory responses. In recent clinical studies, increases in plasma adenosine have been shown to accompany exercise-induced asthma, and adenosine concentrations in exhaled breath condensate are increased in asthmatics. These new data provide support for a key role for adenosine in asthma, which has become increasingly persuasive in recent years. The evidence is now convincing, and the time has come for the asthma community to give its full support to the design and evaluation of molecules that mimic or block the biological effects of adenosine as potential novel therapeutics for this condition.
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PMID:The case for a role for adenosine in asthma: almost convincing? 1281 Jan 90


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