Inhibition of Platelet Thromboxane Formation and Phosphoinositides Breakdown by Diisoeugenol

Abstract— Diisoeugenol inhibited the platelet aggregation and ATP release of rabbit platelets caused by ADP, arachidonic acid, platelet-activating factor (PAF), collagen and thrombin. Prolongation of the incubation time of platelets with diisoeugenol did not cause further inhibition and the aggregability of platelets could not be restored after washing. In human platelet-rich plasma, diisoeugenol inhibited the biphasic aggregation and ATP release induced by adrenaline and ADP in a concentration-dependent manner. Thromboxane B₂ formation caused by arachidonic acid, collagen and thrombin was markedly inhibited by diisoeugenol in a concentration-dependent manner. Diisoeugenol also inhibited the formation of inositol monophosphate caused by collagen, PAF and thrombin. The cAMP level of washed platelets was not changed by diisoeugenol. It is concluded that the antiplatelet effect of diisoeugenol is due to the inhibition of thromboxane formation and phosphoinositides breakdown.     

Novel inhibitory actions on platelet thromboxane and inositolphosphate formation by xanthones and their glycosides

Xanthones and their glycosides were tested for their antiplatelet activities in washed rabbit platelets. Tripteroside acetate and norathyriol acetate were the most potent inhibitors. Tripteroside acetate inhibited platelet aggregation and ATP release induced by ADP, arachidonic acid, platelet-activating factor (PAF), collagen, ionophore A23187 and thrombin. The IC50 values of tripteroside acetate toward arachidonic acid- (100 microM) and collagen- (10 micrograms/ml) induced platelet aggregation were 10 and 30 micrograms/ml respectively. It inhibited thromboxane B2 formation of washed platelets caused by arachidonic acid, collagen, thrombin and ionophore A23187 and also that caused by the incubation of lysed platelet homogenate with arachidonic acid. Tripteroside acetate decreased the formation of inositolphosphate caused by thrombin, collagen and PAF, whereas it had no direct effect on fibrinogen-platelet interaction. It is concluded that xanthone derivatives inhibited platelet aggregation and release reaction by diminishing thromboxane formation and phosphoinositide breakdown.     

Antiplatelet aggregation activity of diterpene alkaloids from Spiraea japonica

Six diterpene alkaloids with an atisine-type C(20)-skeleton isolated from the Chinese herbal medicines Spiraea japonica var. acuta and S. japonica var. ovalifolia, as well as eight derivatives of spiramine C and spiradine F were evaluated for the ability to inhibit aggregation of rabbit platelets induced by arachidonic acid, ADP, and platelet-activating factor (PAF) in vitro. The results showed that 12 of the 14 atisine-type diterpene alkaloids significantly inhibited PAF-induced platelet aggregation in a concentration-dependent manner, but had no effect on ADP- or arachidonic acid-induced aggregation, exhibiting a selective inhibition. It is the first report that C(20)-diterpene alkaloids inhibit PAF-induced platelet aggregation. However, spiramine C1 concentration-dependently inhibited platelet aggregation induced by PAF, ADP and arachidonic acid with IC(50) values of 30.5+/-2.7, 56.8+/-8.4 and 29.9+/-9.9 microM, respectively, suggesting a non-selective antiplatelet aggregation action. The inhibitory effect of spiramine C1 on arachidonic acid was as potent as that of aspirin. Primary studies of the structure-activity relationships for inhibition of PAF-induced aggregation showed that the oxygen substitution at the C-15 position and the presence of an oxazolidine ring in spiramine alkaloids were essential to their antiplatelet aggregation effects. These results suggest that the atisine-type alkaloids isolated from S. japonica are a class of novel antiplatelet aggregation agents.     

Antiplatelet Effect of Gingerol Isolated from Zingiber officinale

The purpose of this investigation was to determine the antiplatelet mechanism of gingerol. Gingerol concentration-dependently (0·5–20 μm ) inhibited the aggregation and release reaction of rabbit washed platelets induced by arachidonic acid and collagen, but not those induced by platelet-activating factor (PAF), U46619 (9,11-dideoxy-9α,11 α-methano-epoxy-PGF_2α) and thrombin. Gingerol also concentration-dependently (0·5–10μ m ) inhibited thromboxane B₂ and prostaglandin D₂ formation caused by arachidonic acid, and completely abolished phosphoinositide breakdown induced by arachidonic acid but had no effect on that of collagen, PAF or thrombin even at concentrations as high as 300 μ m . In human platelet-rich plasma, gingerol and indomethacin prevented the secondary aggregation and blocked ATP release from platelets induced by adenosine 5′-diphosphate (ADP, 5 μ m ) and adrenaline (5 ä m ) but had no influence on the primary aggregation. The maximal antiplatelet effect was obtained when platelets were incubated with gingerol for 30 min and this inhibition was reversible. It is concluded that the antiplatelet action of gingerol is mainly due to the inhibition of thromboxane formation.     

Dicentrine, a novel antiplatelet agent inhibiting thromboxane formation and increasing the cyclic AMP level of rabbit platelets.

Dicentrine is an antiplatelet agent isolated from the Chinese herb Lindera megaphylla. We examined the in vitro effects of dicentrine on various aspects of platelet reactivity. Dicentrine inhibited the aggregation and ATP release of washed rabbit platelets induced by arachidonic acid (AA), collagen, ADP, platelet-activating factor (PAF), thrombin and U46619. Dicentrine also inhibited the thromboxane B2 formation caused by AA, collagen and thrombin in washed intact platelets or that induced by AA in lysed platelet homogenate, while prostaglandin D2 formation caused by AA was not increased. The generation of inositol monophosphates (in the presence of indomethacin) caused by thrombin, collagen and PAF was not suppressed significantly, nor did dicentrine suppress fibrinogen-induced aggregation of elastase-treated platelets. Dicentrine inhibited the intracellular Ca2+ increase in quin-2/AM-loaded platelets caused by thrombin, PAF, collagen and AA. The cyclic AMP level was elevated by dicentrine in a concentration-dependent manner. These data indicate that the inhibitory effect of dicentrine on platelet aggregation and ATP release was due to the inhibition of thromboxane formation and the elevation of the level of cyclic AMP.     

Mechanism of Action of p-Chlorobiphenyl on the Inhibition of Platelet Aggregation

p-Chlorobiphenyl (1–50 μm ) concentration-dependently inhibited the aggregation and release reaction of rabbit washed platelets induced by arachidonic acid and collagen, but not those induced by platelet-activating factor (PAF), U46619 and thrombin. The IC50 values of p-chlorobiphenyl on the arachidonic acid and collagen-induced platelet aggregation were 2.9 ± 0.5 and 12.8 ± 2.3 μm , respectively. The formation of both platelet thromboxane B₂ and prostaglandin D₂ caused by arachidonic acid was inhibited by p-chlorobiphenyl concentration-dependently. In myo-[³H]inositol-labeled and fura-2-loaded platelets, [³H]inositol monophosphate generation and the rise in intracellular Ca²⁺ stimulated by arachidonic acid were inhibited by p-chlorobiphenyl. In human platelet-rich plasma, p-chlorobiphenyl and indomethacin prevented the secondary aggregation and blocked ATP release from platelets induced by adenosine 5′-diphosphate and adrenaline without affecting the primary aggregation. It is concluded that p-chlorobiphenyl may be a cyclo-oxygenase inhibitor and its antiplatelet action is mainly due to the inhibition of thromboxane formation.     

Antiplatelet effect of marchantinquinone, isolated from Reboulia hemisphaerica, in rabbit washed platelets

Platelet activation is involved in serious pathological situations, including atherosclerosis and restenosis. It is important to find efficient antiplatelet medicines to prevent fatal thrombous formation during the course of these diseases. Marchantinquinone, a natural compound isolated from Reboulia hemisphaerica, inhibited platelet aggregation and ATP release stimulated by thrombin (0.1 units mL(-1)), platelet-activating factor (PAF; 2 ng mL(-1)), collagen (10 microg mL(-1)), arachidonic acid (100 microM), or U46619 (1 microM) in rabbit washed platelets. The IC50 values of marchantinquinone on the inhibition of platelet aggregation induced by these five agonists were 62.0 +/- 9.0, 86.0 +/- 7.8, 13.6 +/- 4.7, 20.9 +/- 3.1 and 13.4 +/- 5.3 microM, respectively. Marchantinquinone inhibited thromboxane B2 (TxB2) formation induced by thrombin, PAF or collagen. However, marchantinquinone did not inhibit TxB2 formation induced by arachidonic acid, indicating that marchantinquinone did not affect the activity of cyclooxygenase and thromboxane synthase. Marchantinquinone did inhibit the rising intracellular Ca2+ concentration stimulated by the five platelet-aggregation inducers. The formation of inositol monophosphate induced by thrombin was inhibited by marchantinquinone. Platelet cAMP and cGMP levels were unchanged by marchantinquinone. The results indicate that marchantinquinone exerts antiplatelet effects by inhibiting phosphoinositide turnover.     

Studies on the antiplatelet effect of the stable epoprostenol analogue beraprost sodium and its mechanism of action in rats

Baraprost sodium (sodium (+/-)-(1R*,2R*,3aS*,8bS*)-2,3,3a.8b- tetrahydro-2-hydroxy-1-[(E)-(3S*)-3-hydroxy-4-methyl-1-octen-6- 1H-cyclopenta[b]benzo-furan-5-butyrate, TRK-100) is a novel stable epoprostenol (prostaglandin I2, PGI2) analogue having antiplatelet and vasodilating actions. Its effect on platelet aggregation in whole blood ex vivo and platelet suspension in vitro, formation of cyclic AMP(cAMP), production of malondialdehyde(MDA), and 45Ca++-influx into platelets were studied in rats. Oral administration of TRK-100 (0.3-1 mg/kg) showed a dose-dependent inhibition of platelet aggregation induced by ADP and collagen in whole blood and also inhibited in vitro thrombin-induced aggregation of platelet suspension in the presence or absence of external Ca++. Oral TRK-100 (0.3-3 mg/kg) dose-dependently increased plasma cAMP levels and this action was confirmed in vitro with platelet rich plasma in the presence or absence of theophylline. 45Ca++-influx into platelets stimulated by thrombin was dose-dependently inhibited by TRK-100 (3-100 nmol/l). TRK-100 (3-100 nmol/l) also suppressed MDA production induced by thrombin in platelet suspension but not that induced by arachidonic acid. From these results, TRK-100 which is orally active was suggested to exert its antiplatelet action through the increase of cAMP in platelets by activation of adenylate cyclase, concomitantly followed by the inhibition of Ca++-influx and thromboxane A2 formation.     

Effect of cefaclor on guinea pig platelet aggregation in vitro

Effects of cefaclor (3-chloro-7-D-(2-phenyl-glycinamido)-3-cephem-4-carboxylic acid) on PAF, ADP, collagen, endotoxin, and thrombin-induced platelet aggregation were examined in vitro with the use of guinea pig platelet-rich plasma and washed platelets. PAF, even at concentrations lower than its minimum effective concentration, enhanced ADP- or endotoxin-induced platelet aggregation and prolonged the time to attain the maximum aggregation. PAF also enhanced collagen-induced platelet aggregation and shortened the lag time. Cefaclor (CCL) inhibited the PAF, ADP or thrombin induced platelet aggregation and shortened their maximum aggregation times at higher concentrations such as 300 micrograms/ml or more. CCL also inhibited the collagen-induced platelet aggregation and prolonged the lag time, but showed no effect on endotoxin-induced platelet aggregation. The effect of CCL was almost the same as that of latamoxef (LMOX). CCL and LMOX, however, showed no effect on cellular Ca2+ increase produced by PAF, ADP, or thrombin, suggesting that the inhibitory effect of CCL and LMOX on platelet aggregation is caused by the inhibition of fibrinogen binding to the glycoprotein IIb/IIIa complex.     

Inhibitory effect of curcumin, a food spice from turmeric, on platelet-activating factor- and arachidonic acid-mediated platelet aggregation through inhibition of thromboxane formation and Ca2+ signaling.

Curcumin, a dietary spice from turmeric, is known to be anti-inflammatory, anticarcinogenic, and antithrombotic. Here, we studied the mechanism of the antiplatelet action of curcumin. We show that curcumin inhibited platelet aggregation mediated by the platelet agonists epinephrine (200 microM), ADP (4 microM), platelet-activating factor (PAF; 800 nM), collagen (20 microg/mL), and arachidonic acid (AA: 0.75 mM). Curcumin preferentially inhibited PAF- and AA-induced aggregation (IC50; 25-20 microM), whereas much higher concentrations of curcumin were required to inhibit aggregation induced by other platelet agonists. Pretreatment of platelets with curcumin resulted in inhibition of platelet aggregation induced by calcium ionophore A-23187 (IC50; 100 microM), but curcumin up to 250 microM had no inhibitory effect on aggregation induced by the protein kinase C (PKC) activator phorbol myrsitate acetate (1 microM). Curcumin (100 microM) inhibited the A-23187-induced mobilization of intracellular Ca2+ as determined by using fura-2 acetoxymethyl ester. Curcumin also inhibited the formation of thromboxane A2 (TXA2) by platelets (IC50; 70 microM). These results suggest that the curcumin-mediated preferential inhibition of PAF- and AA-induced platelet aggregation involves inhibitory effects on TXA2 synthesis and Ca2+ signaling, but without the involvement of PKC.     

Formamidine-mediated inhibition of rat platelet aggregation

The formamidine pesticide chlordimeform (CDF) was a strong inhibitor of aggregation of rat platelets induced by collagen and arachidonic acid and was a weak inhibitor of that induced by ADP. With the exception of 4-chloro-o-formotoluidide which was an inhibitor of arachidonic acid-induced aggregation only, the CDF metabolites were without discernible effect on aggregation induced by these agents. Amitraz, another formamidine pesticide, inhibited arachidonic acid-induced aggregation but was without effect on that induced by collagen or ADP. Inhibition of collagen- and/or arachidonic acid-induced aggregation by formamidines was concentration-dependent. Although platelets underwent shape change, primary aggregation was markedly inhibited, and secondary aggregation was abolished in some cases. CDF, its two N-desmethyl metabolites, and octopamine, but not amitraz, caused significantly elevated levels of cyclic AMP in platelet rich plasma as compared to controls; however, this effect did not fully account for the action of formamidines on aggregation.     

Antiplatelet effects of piplartine,an alkamide isolated from Piper tuberculatum: possible involvement of cyclooxygenase blockade and antioxidant activity

Objectives Piplartine (piperlongumine; 5,6‐dihydro‐1‐[1‐oxo‐3‐(3,4,5‐trimethoxyphenyl]‐2(1H) pyridinone) is an alkaloid amide isolated from Piper species (Piperaceae). It has been reported to show multiple pharmacological activities in vitro and in vivo. Methods We evaluated the in‐vitro antiplatelet effect of piplartine isolated from the roots of P. tuberculatum, on human platelet aggregation induced in platelet‐rich plasma by the agonists collagen, adenosine 5′‐diphosphate (ADP), arachidonic acid (AA) and thrombin. Key findings Piplartine (100μg/ml) caused a 30% inhibition in platelet aggregation when collagen was the agonist. At 200 μg/ml, piplartine significantly inhibited the aggregation induced by arachidonic acid (100%), collagen (59%) or ADP (52%) but not that induced by thrombin. The highest concentration of piplartine (300 μg/ml) inhibited thrombin‐ (37%), ADP‐ (71%) and collagen‐ (98%) induced aggregation. The inhibitory effect of piplartine on ADP‐induced platelet aggregation was not modified by pretreatment with pentoxifylline (a phosphodiesterase inhibitor), l ‐arginine (a substrate for nitric oxide synthase) or ticlopidine (a P2Y₁₂ purinoceptor antagonist). However, aspirin, a well‐known inhibitor of cyclooxygenase, greatly increased the inhibitory effect of piplartine on arachidonic‐acid‐induced platelet aggregation. Conclusions The mechanism underlying the piplartine antiplatelet action is not totally clarified. It could be related to the inhibition of cyclooxgenase activity and a decrease in thromboxane A₂ formation, similar to that occurring with aspirin. This and other possible mechanisms require further study.     

眼镜蛇毒金属蛋白酶atrase A抗血小板聚集作用及机制

目的研究中华眼镜蛇毒金属蛋白酶atrase A对血小板聚集的影响及其相关的机制。方法测定atrase A对二磷酸腺苷、胶原、血小板活化因子、花生四烯酸、瑞斯托霉素、凝血酶诱导血小板聚集的影响情况,并通过蛋白质免疫印迹检测atrase A对血小板膜糖蛋白和血管假血友病因子的酶切情况。结果中华眼镜蛇毒金属蛋白酶atrase A能明显抑制由瑞斯托霉素和凝血酶诱导的血小板聚集,这种抑制作用呈量效、时效关系。而atrase A和血小板预孵5min后对二磷酸腺苷、胶原、血小板活化因子、花生四烯酸诱导的血小板聚集有微弱的抑制作用,预孵时间延长至30min对血小板聚集有明显的抑制作用。蛋白质免疫印迹结果显示atrase A能特异性酶切血小板膜糖蛋白GPIb,但对vWF几乎没有酶切作用。结论中华眼镜蛇毒金属蛋白酶atrase A对二磷酸腺苷、胶原、血小板活化因子、花生四烯酸、瑞斯托霉素、凝血酶诱导的血小板聚集均有抑制作用,其中对瑞斯托霉素和凝血酶诱导的血小板聚集具有明显的抑制作用,其机制是通过酶切血小板膜糖蛋白GPIb。     

Inhibition of rat platelet aggregation by a Prudhoe Bay crude oil and its aliphatic,aromatic, and heterocyclic fractions

Wasjed platelets isolated from rats 24 hr after oral treatment with a Prudhoe Bay crude oil (PBCO) showed a substantial inhibition of aggregation induced by ADP, arachidonic acid, or epinephrine. In vitro addition of a dimethyl sulfoxide extract of PBCO or its aliphatic, aromatic, or heterocyclic fractions to washed platelets also resulted in an inhibition of aggregation. ADP release was inhibited in platelets to which an extract of PBCO or its fractions were added in vitro or in platelets isolated from rats treated in vivo with PBCO. Thromboxane B₂ release was increased in platelets isolated from rats intubated with PBCO or in platelets to which a dimethyl sulfoxide extract of the aromatic or heterocyclic fraction was added. However, thromboxane B₂ release was inhibited in platelets to which PBCO or the aliphatic fraction extracts were added. The results indicate that PBCO inhibits platelet aggregation presumably by bringing about alterations in the platelet plasma membrane. Inhibition of ADP release could contribute to the inhibition of aggregation but thromboxane B₂ is believed not to play a significant role.     

Characterization of the L-arginine:nitric oxide pathway in human platelets.

1. The activation of the L-arginine: nitric oxide (NO) pathway during aggregation of human platelets by adenosine 5'-diphosphate (ADP), arachidonic acid, thrombin and the calcium ionophore A23187 and its inhibition by NG-monomethyl-L-arginine (L-NMMA), NG-nitro-L-arginine methyl ester (L-NAME) and N-iminoethyl-L-ornithine (L-NIO) were studied. The inhibition of the cytosolic platelet NO synthase by these compounds was also examined. 2. Platelet aggregation induced by ADP (1-10 microM) and arachidonic acid (0.1-10 microM), but not that induced by thrombin (1-30 mu ml-1) or A23187 (1-10 nM), was inhibited by L-, but not D-arginine (1-30 microM). However, in the presence of a subthreshold concentration of prostacyclin (0.1 nM) or of M & B 22948 (1 microM), a selective inhibitor of guanosine 3':5'-cyclic monophosphate (cyclic GMP) phosphodiesterase, L-arginine caused concentration-dependent inhibition of aggregation induced by all of these aggregating agents. 3. L-NMMA, L-NAME and L-NIO (all at 1-30 microM), but not their D-enantiomers, enhanced to the same extent platelet aggregation induced by ADP, arachidonic acid and thrombin without affecting that induced by A23187. 4. In the presence of 300 microM L-arginine, the NO synthase in platelet cytosol was inhibited by L-NMMA, L-NAME and L-NIO with IC50s of 74 +/- 9, 79 +/- 8 and 8.5 +/- 1.5 microM (n = 3), respectively. 5. These results indicate that the L-arginine: NO pathway in human platelets plays a role in the modulation of platelet aggregation.     

Bakkenolide G,a Natural PAF-receptor Antagonist

Because platelet-activating factor (PAF, 1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine) participates in many physiopathological responses, including inflammatory reaction, endotoxic shock, allergic diseases and platelet aggregation, PAF-receptor antagonists are important in the treatment of these diseases. A biologically active compound, bakkenolide G, extracted from the plant Petasites formosanus selectively and concentration-dependently inhibited PAF-induced platelet aggregation and ATP release. The IC50 of bakkenolide G for PAF (2 ng mL^?1)-induced platelet aggregation was 5.6 ± 0.9 μm . Bakkenolide G also concentration-dependently inhibited PAF-induced intracellular signal transductions, including thromboxane B₂ formation, and increased intra-cellular calcium concentration and phosphoinositide breakdown without affecting those caused by thrombin (01 units mL^?1), collagen (10 μg mL^?1), arachidonic acid (100 μm ) and U46619 (1 μm ). Bakkenolide G shifted the concentration-response curves of PAF-induced platelet aggregation parallel to the right; the Schild plot slope and the pA₂ value were 1.31 ± 0.31 and 6.21 ± 0.75, respectively. Moreover, bakkenolide G concentration-dependently competed with [³H]PAF binding to platelets, with an IC50 value of 2.5 ± 0.4 μm . These data strongly indicate that bakkenolide G is a specific PAF-receptor antagonist as an antiplatelet aggregatory agent.     

Components of traditional Chinese medicine inhibit platelet aggregation by blocking ADP receptor subtypes P2Y_1 and P2Y_(12)

Platelets aggregation and thrombosis formation are major reasons of cardiovascular and cerebral vascular diseases.To develop new generative,potent and safe agents for inhibiting platelet aggregation and preventing above diseases are urgently required.Some traditional Chinese medicines of″Houxue Huayu″have been shown to inhibit platelet aggregation potently.In the present study the mechanisms and the molecular targets of puerarin,salvianolic acid B and the analogue of 3-n-butylphthalide,dl-PHPB were investigated and compared with ticlopidine.Four platelet aggregation inducers,ADP,arachidonic acid,collagen and thrombin were used in the study.It was found that puerarin and dl-PHPB specifically inhibited ADP induced platelet aggregation like ticlopidine did.However,salvianolic acid B inhibited both ADP and collagen induced platelet aggregations with similar potency.Due to existing two ADP receptor subtypes on platelets,P2Y1 and P2Y12,we studied the action of above compounds on the receptors and the signaling pathways.It was found that dl-PHPB decreased IP1 accumulation produced by ADP,but had no effect on IP1 level induced by m-3M3 FBS,an activator of PLC.M-3M3 FBS might attenuate the inhibitory effect of dl-PHPB on ADP-induced platelet aggregation.In addition,dl-PHPB did not affect cyclic AMP formation in platelets by ADP,which is different from P2Y12 antagonist ticlopidine.Puerarin showed the similar effects of dl-PHPB.Therefore,the actions of dl-PHPB and puerarin might be through P2Y1receptor-PLC-βpathway.Salvianolic acid B did not reduce the IP1 accumulation stimulated by ADP.It might act on the receptor subtype P2Y12.Our results suggest that components of Chinese herb medicine might be a resource for development of novel anti-platelet drugs.     

Characterization of a unique dihydropyrimidinone, ethyl 4-(4'-heptanoyloxyphenyl)-6-methyl-3,4-dihydropyrimidin-2-one-5-carboxylate, as an effective antithrombotic agent in a rat experimental model

Objectives To evaluate the potential of a novel dihydropyrimidinone, ethyl 4‐(4′‐heptanoyloxyphenyl)‐6‐methyl‐3,4‐dihydropyrimidin‐2‐one‐5‐carboxylate (H‐DHPM), as a calcium channel blocker, endowed with the ability to inhibit platelet aggregation effectively. Methods In‐vitro and in‐vivo studies were conducted for the determination of antiplatelet activity using adenosine diphosphate (ADP), collagen or thrombin as inducers. Calcium channel blocking activity and nitric oxide synthase (NOS) activity were monitored. Lipopolysaccharide (LPS)‐mediated prothrombotic conditions were developed in rats to study the efficacy of H‐DHPM to suitably modulate the inflammatory mediators such as inducible NOS (iNOS) and tissue factor. The cGMP level and endothelial NOS (eNOS) expression were checked in aortic homogenate of LPS‐challenged rats pretreated with H‐DHPM. The effect of H‐DHPM on FeCl₃‐induced thrombus formation in rats was examined. Key findings The concentrations of H‐DHPM required to give 50% inhibition (IC50) of in‐vitro platelet aggregation induced by ADP, collagen or thrombin were 98.2 ± 2.1, 74.5 ± 2.3 and 180.7 ± 3.4 µm , respectively. H‐DHPM at a dose of 52.0 ± 0.02 mg/kg (133 µmol/kg) was found to optimally inhibit ADP‐induced platelet aggregation in‐vivo. The level of nitric oxide was found to be up to 9 ± 0.08‐fold in H‐DHPM‐treated platelets in‐vitro and 8.2 ± 0.05‐fold in H‐DHPM‐pretreated rat platelets in‐vivo compared with control. OH‐DHPM, the parent compound was found to be ineffective both in‐vitro and in‐vivo. H‐DHPM‐pretreated rats were able to resist significantly the prothrombotic changes caused by LPS by blunting the expression of iNOS, tissue factor and diminishing the increased level of cGMP to normal. H‐DHPM enhanced the eNOS expression in aorta of rats treated with LPS. H‐DHPM displayed synergy with antiplatelet activity of aspirin even at lower doses. H‐DHPM was found to inhibit the LPS‐induced platelet aggregation in younger as well as older rats. H‐DHPM exhibited the ability to markedly decrease FeCl₃‐induced thrombus formation in rats. Conclusions H‐DHPM has the attributes of a promising potent antiplatelet candidate molecule that should attract further study. H‐DHPM displayed antiplatelet activity both in vivo and in vitro, which was due partially by lowering the intraplatelet calcium concentration.     

Effect of 2(1-piperazinyl)-4H-pyrido[1,2-a]pyrimidin-4-one (AP155) on human platelets in vitro

The effect on human platelets of 2-(1-piperazinyl)-4H-pyrido[1,2-a]pyrimidin-4-one (AP155) was tested in vitro by measuring cyclic adenosine monophosphate (cAMP) level, cytosolic Ca⁺⁺, [¹²⁵I]fibrinogen binding as well as aggregation induced by several agonists. AP155 dose-dependently inhibited aggregation both in platelet rich plasma (PRP) and in washed platelets (WP), exerting its maximal power in the presence of collagen, ADP and platelet activating factor (PAF). It specifically inhibited the activity of cAMP high affinity phosphodiesterase (PDE), resulting in a sufficient increase in cAMP levels to activate cAMP-dependent protein kinase. AP155 was able to inhibit aggregation, the increase in cytosolic Ca⁺⁺ induced by thrombin, and fibrinogen binding to ADP or thrombin-stimulated platelets. Thus, this new pyridopyrimidine derivative exerts its antiplatelet activity by increasing cAMP intracellular concentration.     

Effects of brazilin on the phospholipase A2 activity and changes of intracellular free calcium concentration in rat platelets

Brazilin {7,11 b-dihydrobenz[b]indeno[1,2-d]pyran-3,6a,9,10(6H)-tetrol} inhibited thrombin-, collagen-and ADP-induced aggregation of washed rat platelets. Thrombin- and collagen-induced ATP release were also inhibited by brazilin in a concentration-dependent manner. Brazilin inhibited the formation of platelet thromboxane A₂ caused by thrombin, whereas it had no effect on the prostaglandin D₂ formation. Brazilin inhibited [³H]-arachidonic acid liberation from membrane phospholipids of thrombin-stimulated platelets. Brazilin inhibited the rise of intracellular free calcium caused by thrombin. These results indicate that the inhibition of phospholipase (PLA₂) activity and [Ca²⁺]_i elevation might be at least a part of antiplatelet mechanism of brazilin.