In a search for antiprotozoan compounds, 34 new 3,5-disubstituted-tetrahydro-2H-1,3,5-thiadiazine-2-thione derivatives were synthesized and tested in vitro against Trypanosoma cruzi and Trichomonas vaginalis. Some of them showed important antiprotozoan activity. In vivo assays of compounds which showed remarkable in vitro activity against T. vaginalis were carried out.
Deaggregation, the partial reversal of the initial aggregation of platelets is observed following low, but not higher, micromolar ADP concentrations. This study tested the hypothesis that deaggregation results from a balance between concurrent, opposing, aggregation and deaggregation processes which are ADP (adenosine 59 -diphosphate) receptor occupancy-dependent. Aggregation of human platelet-rich plasma (PRP) prepared in r-hirudin was assayed in a 96-well plate reader over 20 min by measurement of the optical density (OD) at 580 nm. Aggregation and the time to reach peak aggregation were directly proportional to ADP receptor occupancy. The magnitude and time course of the response to ADP were comparable to those previously reported with standard aggregometry. The rate constant of platelet deaggregation, as assessed by a fourcompartment kinetic model, was inversely proportional to agonist concentration. The ratio of the rate constants of aggregation and deaggregation was receptor occupancy-dependent and directly proportional to aggregation. Consequently, platelet aggregation was proportional, and deaggregation inversely proportional, to ADP receptor occupancy. We propose that the response of PRP to ADP and to 2-MeS-ADP (2-methylthioadenosinediphosphate), in vitro, consists of at least two active, concurrent processes, aggregation and deaggregation. Incremental occupancy of the P 2T ADP receptor subtype attenuates deaggregation and governs the balance between these two processes.
Single-receptor pharmacology does not satisfactorily explain the physiology of the ADP-induced platelet aggregation response. It has been shown that, in addition to Gq-coupled receptor activation, one Gi-coupled receptor, either the ADP P2T or the alpha2-adrenoceptor, is required for elicitation of aggregation. The underlying mechanism of this action, however, has not been elucidated. By systematically assaying the entire time course of the aggregation and its fade using two methods of aggregometry, we have investigated the role of graded activation of these two Gi-coupled receptors. We demonstrate that constant activation of either of two Gq-coupled receptors, the ADP P2Y1 or the 5-HT2A, and incremental activation of either of the two Gi-coupled receptors, tightly regulates the aggregation response in vitro, through the apparent release of a tonic inhibition of platelet aggregation. This tightly regulated release of inhibition, which appears analogous to the phenomena of disinhibition observed in the central nervous system, may be instrumental for the continuous adaptation of the aggregation response to variable physiological conditions.
Adenosine diphosphate (ADP) is recognized as an important mediator of platelet aggregation. Transient aggregation at low (< or =1 microM), and sustained aggregation at higher ADP concentrations are consistently observed. Dissociation of platelet aggregates has been described and may explain the reversible component of the aggregation response. We hypothesized that the net aggregation response to ADP in vitro results from the concurrent activation of two opposing processes, aggregation and deaggregation. Different purinergic receptor subtypes may mediate these effects. To test this hypothesis and its generalizability, we performed a kinetic analysis of representative published ADP-induced aggregation responses supplemented with original data from our laboratory. A four-compartment kinetic model was used to estimate k(3), a rate constant of deaggregation. Two model-independent parameters, the magnitude of the aggregation response (DeltaOD) and the time to reach maximal aggregation (t(peak)) were also assessed. Greater sustained aggregation at higher ADP concentrations was consistently associated with increased DeltaOD and t(peak) but decreased k(3) values. These relationships were independent of type of platelet preparation or experimental conditions and not due to ADP receptor desensitization. Conversely, blockade of the P2Y(12) receptor subtype (ticlopidine, clopidogrel or 2-MeS-AMP) decreased DeltaOD and t(peak) but increased k(3) values. This supports the presence of active deaggregation which is decelerated by activation of the P2Y(12) receptor subtype.
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