Caffeine intake induces an alteration in human neutrophil A2A adenosine receptors.

Caffeine is the most widely used drug in the world and acts mainly through antagonism of the effects mediated by the adenosine receptor subtypes A1, A2A, A2B and A3. We determined whether repeated caffeine administration at different doses and for different periods of time (400 or 600 mg/day for 1 week and 400 mg/day for 2 weeks) alters human neutrophil A2A adenosine receptor density and function. Saturation binding assays showed an increase in affinity (K(D)) and density (B(max)) of A2A adenosine receptors after caffeine intake. These changes were accompanied by increases in cAMP accumulation and decreases in superoxide anion production after stimulation of the A2A receptor subtype using the agonist 5'-N-ethylcarboxamidoadenosine (NECA). Binding and functional changes of A2A receptors returned to baseline after 48 h of caffeine withdrawal. The findings are consistent with a potential anti-inflammatory effect of caffeine mediated by neutrophil A2A receptors.

Pharmacological and biochemical characterization of adenosine receptors in the human malignant melanoma A375 cell line.

1. The present work characterizes, from a pharmacological and biochemical point of view, adenosine receptors in the human malignant melanoma A375 cell line. 2. Adenosine receptors were detected by RT - PCR experiments. A1 receptors were characterized using [3H]-DPCPX binding with a KD of 1.9+/-0.2 nM and Bmax of 23+/-7 fmol x mg(-1) of protein. A2A receptors were studied with [3H]-SCH 58261 binding and revealed a KD of 5.1+/-0.2 nM and a Bmax of 220+/-7 fmol x mg(-1) of protein. A3 receptors were studied with the new A3 adenosine receptor antagonist [3H]-MRE 3008F20, the only A3 selective radioligand currently available. Saturation experiments revealed a single high affinity binding site with KD of 3.3+/-0.7 nM and Bmax of 291+/-50 fmol x mg(-1) of protein. 3. The pharmacological profile of radioligand binding on A375 cells was established using typical adenosine ligands which displayed a rank order of potency typical of the different adenosine receptor subtype. 4. Thermodynamic data indicated that radioligand binding to adenosine receptor subtypes in A375 cells was entropy- and enthalpy-driven. 5. In functional assays the high affinity A2A agonists HE-NECA, CGS 21680 and A2A - A2B agonist NECA were able to increase cyclic AMP accumulation in A375 cells whereas A3 agonists Cl-IB-MECA, IB-MECA and NECA were able to stimulate Ca2+ mobilization. In conclusion, all these data indicate, for the first time, that adenosine receptors with a pharmacological and biochemical profile typical of the A1, A2A, A2B and A3 receptor subtype are present on A375 melanoma cell line.

Synthesis by microwave irradiation and binding properties of novel 5-HT(1A) receptor ligands.

This work reports the synthesis by microwave irradiation and the binding tests on the 5-HT(1A), 5-HT(2A) and 5-HT(2C) receptors of new substituted piperazines in order to identify selective ligands for 5-HT(1A) subtype receptor. Conventional heating and microwave irradiation of the reactions was compared. Synthesis by microwave irradiation gave the desired compounds in better yields than those obtained by conventional heating. The overall times for the syntheses were considerably reduced. Some resulting active compounds (29 and 39) were characterised by a good selectivity profile for the 5-HT(1A) subtype receptor. The more active compounds were selected and further evaluated for their binding affinities on D(1), D(2) dopaminergic and alpha(1), alpha(2) adrenergic receptors. The compound with higher affinity and selectivity for the 5-HT(1A) over all the considered receptors was the 3-[4-[4-(1,2,3,4-tetrahydronaphthyl)-1-piperazinyl]butan]-benzotriazinone (-)29 (5-HT(1A) K(i)=36 nM, other receptors not active).