It has been observed that ticlopidine and clopidogrel show, apart from their delayed antiplatelet properties, an immediate and transient thombolytic action related to the ability of these thienopyridines to stimulate the secretory function of vascular endothelium. With the objective to construct new molecules with identical thombolytic potency but at a higher level, we carried out different structural modifications in the thienopyridine chemical molecule to conclude that the presence of a second N atom in the pyridine cycle (yielding pyrimidine moiety) and the presence of an additional cycle fused to the thienyl ring would lead to enhanced thrombolytic effects. Here we report the six-step synthesis of a series of new benzothienopyrimidinone derivatives characterized by this searched for potent thrombolytic activity. The pharmacological assay used anaesthetised Wistar rats with extracorporal circulation in which arterial blood superfused thrombi adhering to a strip of collagen.Weight of thrombi was continuously monitored. Six compounds of the series were much more potent thrombolytic agents than their thienopyridine references: the effective thrombolytic dose that produced 30% of maximum thrombolysis (ED30) was at a range of 8 to 170 µg kg-1 as compared with ED30 values of 16000 to 20000 µg kg-1 for clopidogrel and ticlopidine respectively. Especially with the most active compound, this difference in the threshold thrombolytic dose, giving an intensity of action higher by three orders of magnitude, was accompanied by a lengthening of the response. Apart from that these compounds have shown to be synthetic thrombolytics , they certainly deserve further studying.
Tumor endothelial cells are actively involved in the neovascularization processes that accompany tumor growth. Their easy accessibility for systemically applied therapeutics makes them interesting targets for therapeutic intervention. Especially for drug targeting-based therapeutics that often consist of macromolecular moieties, the tumor endothelium is considered a much better target than the tumor cells located behind the vascular wall barrier. In this review, the general principles underlying the development and choices in the development of vascular drug-targeting strategies are discussed. An overview of target epitopes identified in the past two decades is followed by a summary of those strategies that directly or indirectly induced tumor blood flow blockade in vivo. The demonstrated therapeutic success in pre-clinical animal models in debulking large tumor masses and inhibiting tumor outgrowth warrant further development of these therapeutic approaches. Yet, more effort should be put in studies in which the efficacy of different effector activities aimed at the same target, of one effector activity aimed at different targets, and of multiple target strategies are be compared. Combining these data with proper inventories on the molecular basis of tumor endothelial heterogeneity in general will make possible the development of tumor vascular drug-targeting strategies towards clinical application.
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Using automatic erythrocyte aggregometer type MA-1 (Myrenne gmbh, Germany), we investigated the hypothesis that therapeutic effectiveness of quinapril - angiotensin converting enzyme inhibitor (ACEI) - in the treatment of hypertension would correlate with improvement of red blood cell (RBC) aggregability. Experiments were performed on commercially available inbred strain of spontaneously hypertensive male rats (SHR) aged 19-21 weeks. Age-matched normotensive Wistar-Kyoto (WKY) rats genetically related to SHR were used as a control. Aggregability of RBC in hypertensive rats was significantly higher than in control WKY animals. Quinapril (100 µg/kg) administered i.p. for 8 days improved RBC aggregability in normotensive rats but surprisingly not in SHR animals. Beneficial effect of quinapril on RBC aggregation observed in normotensive animals did not occur when this drug was injected in combination with aspirin (1 or 50 mg/kg) or with indomethacin (20 mg/kg) or with L-NAME (10 mg/kg). However, much the same damaging effects on RBC aggregability were observed when aspirin, indomethacin or L-NAME were each administered into normotensive animals without quinapril. In contrast with normotensive rats, aggregability of RBC in SHR was not affected either by quinapril or by indomethacin and by L-NAME, given separately or in combination. The only compound significantly worsening RBC aggregability in SHR was aspirin but this effect was not dose-dependent. Quinapril-induced improvement of RBC aggregability in normotensive rats (but not in SHR) was completely abolished by simultaneous administration of B2 receptor antagonist icatibant and successfully mimicked by 8 days of treatment with bradykinin. In vitro aggregability of RBC isolated from WKY was not affected by previous incubation (30 min at 37°C) with quinapril, indomethacin or L-NAME. Only aspirin (3 mM) significantly increased RBC aggregability as compared to placebo. It is concluded that under physiological conditions quinapril efficiently inhibits RBC aggregability and this effect is modulated by secretion of endothelial mediators, mainly prostacyclin and nitric oxide. In hypertension quinapril, in spite of lowering of arterial blood pressure, is unable to display its beneficial effects on RBC aggregability possibly due to the hypertension-induced/accompanied dysfunction of vascular endothelium. Aspirin revealed unique erythrocyte damaging properties, presumably independent of inhibition of cyclooxygenase but related to a direct membrane protein acetylation.