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Inhibition of mediator release in RBL-2H3 cells by some H1-antagonist derived anti-allergic drugs: Relation to lipophilicity and membrane effects (1995)

Fischer, M. J. E. ; Paulussen, J. J. C. ; Horbach, D. A. ; [et al.]

Springer

Inflammation research 44 (1995), S. 92-97

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ISSN: 1420-908X

Keywords: RBL-2H3 ; Exocytosis ; Lipophilicity ; DSC ; Membrane

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In a model for mucosal mast cells (RBL-2H3 cells) a set H1-antagonist derived anti-allergic drugs containing a diphenylmethyl piperazinyl moiety was examined for their ability to inhibit release of the mediatorβ-hexosaminidase. Cells were activated with antigen or the calcium ionophore A23187, whether or not in combination with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA). Oxatomide, hydroxyzine and cetirizine inhibit the antigen inducedβ-hexosaminidase release. The release triggered by A23187, whether or not in combination with TPA is hardly influenced by the compounds. A biphasic dependence of the inhibition of exocytosis in RBL cells on lipophilicity is observed with the optimum at log P is 5–6. The extremely lipophilic compounds meclozine and buclizine are not active in this model. pH dependence of the effect of the drugs shows that especially the uncharged species are active in inhibiting exocytosis. The investigated compounds show an effect on phase transitions in L-α-phosphatidylcholine dipalmitoyl liposomes as assayed with differential scanning calorimetry (DSC). For the less extremely lipophilic compounds the induced changes in the phospholipid membranes increased with lipophilicity. The relation between structural features of the drug and the interaction with phospholipids is discussed in view of the DSC results. We conclude that location of the active drugs at the membrane or the membrane/protein interface is important for the inhibiting activity on exocytosis. This could affect several membrane related processes, which are abundant in the early phases of the IgE-mediated signal transduction process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01793220

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Relation between effects of a set of anti-allergic drugs on calcium pathways and membrane structure in Fc∈RI activated signal transduction (1996)

Fischer, M. J. E. ; Paulussen, J. J. C. ; Roozendaal, R. ; [et al.]

Springer

Inflammation research 45 (1996), S. 564-573

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ISSN: 1420-908X

Keywords: RBL-2H3 ; Fc∈RI ; Membrane ; Protein tyrosine phosphorylation ; Calcium

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The antigen induced stimulation of mast cells by aggregation of Fc∈RI receptors activates a signal transduction cascade leading to release of mediators of inflammation like histamine, arachidonic acid metabolites and cytokines. In this study we investigated a series of structurally related anti-allergic drugs, containing a common lipophilic diphenylmethyl piperazinyl tail and head groups that differ in lipophilicity. Effects of these drugs on various steps of the signal transduction cascade was investigated to gain insight into the mechanism of action of these drugs. It appeared that addition of the drugs to resting cells induced changes in the tyrosine phosphorylation of cellular proteins. The most active anti-allergics in inhibiting exocytosis, AL3264 and oxatomide, also induced the largest changes in phosphorylation. The effects of the drugs on tyrosine phosphorylation after cell activation was complex. Additionally, Ca2+ fluxes were investigated. Ca2+ efflux from the cells was negligibly influenced by the active drugs. However, the drugs inhibited influx from extracellular Ca2+, which was correlated with the effects of the drugs on inhibition of exocytosis and on membrane stabilization induced by the drugs, measured as haemolysis of erythrocytes. It is concluded that inhibition of Ca2+ influx is the major mechanism with which these drugs inhibit exocytosis and that for this effect drug-membrane interactions, possibly affecting the function of membrane embedded proteins, are of importance. Possible mechanisms including drug-membrane interactions, phosphorylation and inhibition of Ca2+ influx are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02342228

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