Effect of anethole dithiolthione on human platelet aggregation.

Anethole dithiolthione (ADT) (10 mumol/l) inhibited platelet aggregation and the formation of thromboxane (Tx)B2 in plasma in response to adenosine diphosphate (ADP), epinephrine and arachidonic acid (AA). ADT partially inhibited platelet aggregation and TxB2 formation in plasma induced by thrombin, phorbol myristate acetate and calcium ionophore A23187 and increased the lag time of collagen-induced aggregation at concentrations in the range 10-40 mumol/l. ADT (100 mumol/l) completely inhibited the aggregation of washed platelets challenged with thrombin. ADT had no additive effect on the inhibition of thrombin-induced platelet aggregation by acetylsalicylic acid. ADT was a more effective inhibitor of AA-induced platelet aggregation than butylated hydroxytoluene. ADT inhibited the release of 3H-AA from platelet phospholipids in response to ADP and collagen. It is suggested that ADT inhibits platelet aggregation by inhibiting thromboxane synthesis and preventing AA release.     

Comparison of the effects of PAR1 antagonists, PAR4 antagonists, and their combinations on thrombin-induced human platelet activation

Thrombin activates human platelets through proteolytic activation of two protease-activated receptors (PARs), PAR1 and PAR4. In the present study, we show that, RWJ-56110, a potent synthetic PAR1 antagonist, inhibited platelet aggregation caused by a low concentration (0.05 U/ml) of thrombin, but lost its effectiveness when higher concentrations of thrombin were used as stimulators. YD-3, a non-peptide PAR4 antagonist, alone had little or no effect on thrombin-induced platelet aggregation, significantly enhanced the anti-aggregatory activity of PAR1 antagonist. In addition, we demonstrate for the first time that P-selectin expression in thrombin-stimulated platelets can be synergistically prevented by combined treatment of PAR1 antagonist and PAR4 antagonist. These results indicate that thrombin-induced platelet activation cannot be effectively inhibited by just blocking either single thrombin receptor pathway, and suggest a rationale for potential combination therapy in arterial thrombosis.     

YD-3, a novel inhibitor of protease-induced platelet activation

1. In the present study, the antiplatelet effects and mechanisms of a new synthetic compound YD-3 [1-benzyl-3(ethoxycarbonylphenyl)-indazole] were examined. 2. YD-3 inhibited the aggregation of washed rabbit platelets caused by thrombin (IC(50)=28.3 microM), but had no or little inhibitory effect on that induced by arachidonic acid, collagen, platelet-activating factor (PAF) or U46619. YD-3 also suppressed generation of inositol phosphates caused by thrombin. On the other hand, thrombin-induced fibrin formation was not affected by YD-3, indicating YD-3 does not inhibit the proteolytic activity of thrombin. 3. In washed human platelets, however, YD-3 had only mild inhibitory effect on the low concentration (0.05 u ml(-1)) of thrombin-induced human platelet aggregation, and did not affect that induced by higher concentrations (> or =0.1 u ml(-1)) of thrombin or SFLLRN, the protease-activated receptor 1 (PAR1) agonist peptide. By contrast, YD-3 inhibited both human and rabbit platelet aggregation elicited by trypsin with IC(50) values of 38.1 microM and 5.7 microM, respectively. 4. YD-3, at 100 microM, had no effect on ristocetin-induced glycoprotein Ib (GPIb)-dependent aggregation of human platelets. In addition, platelets treated with chymotrypsin, which cleaves GPIb, enhanced rather than attenuated the inhibition of YD-3 on thrombin-induced human platelet aggregation. These data indicate that GPIb plays no role in the antiplatelet effect of YD-3. 5. In SFLLRN-desensitized human platelets, high concentration of thrombin (1 u ml(-1)) could still elicit intracellular Ca(2+) mobilization, and the rise of [Ca(2+)](i) was prevented by either leupeptin or YD-3. 6. Our results suggest that YD-3 inhibits a non-PAR1 thrombin receptor which mediates the major effect of thrombin in rabbit platelets, but in human platelets, this receptor function becomes significant only when the function of PAR1 has been blocked or attenuated.     

Regulation of human platelet activation--analysis of cyclooxygenase and cyclic AMP-dependent pathways

We have studied the regulation of human platelet activation by cyclic AMP (cAMP), and the cyclooxygenase products by examining the effect of prostacyclin (PGI2) and indomethacin on platelet aggregation, release reaction and thromboxane B2 (TxB2) generation induced by the full dose range of common platelet agonists in both platelet-rich plasma and washed platelets. Platelet aggregation, [14C]-5HT and TxB2 release induced by "threshold" and "supramaximal" concentrations of ADP, adrenaline, platelet-activating factor (PAF) and U46619 were totally abolished by low concentrations of PGI2 (3-6 nM). In contrast, platelet activation induced by submaximal concentrations of collagen, thrombin and the calcium ionophore A23187 was only partially inhibited by PGI2 (3-3000 nM). PAF-induced release reaction like that induced by ADP and adrenaline was totally dependent on the cyclooxygenase products and aggregation, while U46619-induced release reaction was only partially dependent on aggregation and the cyclooxygenase products. While both PGI2 (18-3000 nM) and indomethacin (10 microM) abolished collagen-induced aggregation and the aggregation-mediated release reaction, neither inhibitor significantly inhibited platelet adhesion or the adhesion-mediated release reaction. Maximal thrombin-induced aggregation and release reaction was also not significantly inhibited by PGI2 (300 nM) or indomethacin (10 microM). Thromboxane (TxB2) generation induced by sub-maximal to maximal concentrations of collagen, thrombin and A23187 was, although significantly inhibited, not abolished by PGI2. These results demonstrate that PAF is a "weak" agonist similar to ADP and adrenaline, U46619 is an agonist intermediate between weak and strong which induces a release reaction that is only partially dependent on aggregation, but unlike the strong agonists, is totally susceptible to inhibition by PGI2, PGI2 is an indirect inhibitor of phospholipase activation, which does not significantly inhibit non-aggregation-mediated arachidonate mobilization, induced by the strong agonists, and the so-called third pathway in the collagen and thrombin-induced release reaction, which is insensitive to indomethacin, is also insensitive to elevators of cAMP such as PGI2.     

Thrombin-induced conversion of fibrinogen to fibrin results in rapid platelet trapping which is not dependent on platelet activation or GPIb

1. Activation of human platelets by thrombin is mediated by the proteolytic cleavage of two G-protein coupled protease-activated receptors, PAR-1 and PAR-4. However, thrombin also binds specifically to the platelet surface glycoprotein GPIb. It has been claimed that thrombin can induce aggregation of platelets via a novel GPIb-mediated pathway, which is independent of PAR activation and fibrinogen binding to alpha(IIb)beta(3) integrin, but dependent upon polymerizing fibrin and the generation of intracellular signals. 2. In the presence of both fibrinogen and the alpha(IIb)beta(3) receptor antagonist lotrafiban, thrombin induced a biphasic platelet aggregation response. The initial primary response was small but consistent and associated with the release of platelet granules. The delayed secondary response was more substantial and was abolished by the fibrin polymerization blocking peptide GPRP. 3. Cleavage of the extracellular portion of GPIb by mocarhagin partially inhibited thrombin-induced alpha(IIb)beta(3)-dependent aggregation and release, but had no effect on the secondary fibrin-dependent response. 4. Fixing of the platelets abolished alpha(IIb)beta(3)-dependent aggregation and release of adenine nucleotides, whereas the fibrin-dependent response remained, indicating that platelet activation and intracellular signalling are not necessary for this secondary 'aggregation'. 5. In conclusion, the secondary fibrin-dependent 'aggregation' response observed in the presence of fibrinogen and lotrafiban is a platelet trapping phenomenon dependent primarily on the conversion of soluble fibrinogen to polymerizing fibrin by thrombin.     

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.     

The roles and mechanisms of PAR4 and P2Y12/phosphatidylinositol 3-kinase pathway in maintaining thrombin-induced platelet aggregation

BACKGROUND AND PURPOSE

Activation of human platelets by thrombin is mediated predominately through two proteinase-activated receptors (PARs), PAR1 and PAR4. Phosphatidylinositol 3-kinase (PI3K) inhibition leads to reversible PAR1-mediated platelet aggregation, but has no effect on the stability of platelet aggregation induced by thrombin. In the present study, the molecular mechanisms underlying this difference were investigated.

EXPERIMENTAL APPROACH

The functions of PI3K and PAR4 were assessed using specific inhibitors and aggregometry. The duration of platelet glycoprotein (GP) IIb/IIIa exposure was determined by flow cytometry with the antibody PAC-1. Western blotting and fluo-3 was used to evaluate the activation of Akt and protein kinase C (PKC) and intracellular Ca²⁺ mobilization respectively.

KEY RESULTS

When PAR4 function was inhibited either by the PAR4 antagonist YD-3 [1-benzyl-3-(ethoxycarbonylphenyl)-indazole] or by receptor desensitization, the PI3K inhibitor wortmannin turned thrombin-elicited platelet aggregation from an irreversible event to a reversible event. Moreover, wortmannin plus YD-3 markedly accelerated the inactivation of GPIIb/IIIa in thrombin-stimulated platelets. The aggregation-reversing activity mainly resulted from inhibition of both PI3K-dependent PKC activation and PAR4-mediated sustained intracellular Ca²⁺ rises. Blockade of ADP P2Y₁₂ receptor with 2-methylthioadenosine 5′-monophosphate triethylammonium salt mimicked the inhibitory effect of wortmannin on PI3K-dependent PKC activation and its ability to reverse PAR1-activating peptide-induced platelet aggregation. Co-administration of 2-methylthioadenosine 5′-monophosphate triethylammonium salt with YD-3 also decreased the stability of thrombin-induced platelet aggregation.

CONCLUSIONS AND IMPLICATIONS

These results suggest that PAR4 acts in parallel with the P2Y₁₂/PI3K pathway to stabilize platelet aggregates, and provide new insights into the mechanisms of thrombus stabilization and potential applications for antithrombotic therapy.     

The mechanism of anti-platelet activity of davallialactone: involvement of intracellular calcium ions, extracellular signal-regulated kinase 2 and p38 mitogen-activated protein kinase

This study was designed to investigate the effect of davallialactone, which was isolated from the mushroom Inonotus xeranticus, on platelet aggregation induced by collagen, thrombin and ADP. We found that davallialactone dose-dependently inhibited platelet aggregation that was stimulated either by collagen (2.5 microg/ml), a potent ligand of integrin alpha2beta1 and glycoprotein VI, or by thrombin (0.1U/ml), a potent agonist of the protease-activated receptors (PARs) PAR1 and PAR3. In addition, davallialactone inhibited platelet aggregation induced by ADP, an agonist of P2Y receptor. To understand the mechanism of anti-platelet activity, we determined whether davallialactone affected the downstream signaling in collagen-activated platelets. Using the fura-2/AM fluorometric assay, we found that davallialactone dose-dependently inhibited intracellular calcium concentration levels ([Ca2+]i). Moreover, davallialactone inhibited the phosphorylation of extracellular signal-regulated protein kinase (ERK)-2 and p38 mitogen-activated protein kinase (MAPK), in a dose-dependent manner. The tyrosine phosphorylation of 60 and 85kDa proteins, which were activated by collagen, were differentially inhibited by davallialactone. Taken together, these data suggest that davallialactone may have potential anti-platelet aggregation activity via suppression of intracellular downstream signaling pathways.     

槲皮素对血小板聚集和胞浆游离钙的影响(英文)

目的:研究槲皮素对凝血酶诱导的血小板聚集和胞浆游离钙浓度的影响及钙对槲皮素的血小板聚集抑制效应的作用。方法:用荧光钙离子指示剂观察槲皮素对血小板胞浆游离钙的影响.结果:槲皮素明显抑制凝血酶诱导的血小板聚集和游离钙的升高.IC_(50)和95％可信区间分别为146.2(92.4～231.3)和78.5(49.5—124.4)μmol·L~(-1).槲皮素对血小板的抑制作用可被钙翻转.槲皮素对凝血酶诱导的钙释放无影响.结论:抑制钙内流是槲皮素抑制血小板聚集和[Ca~(2 )]_i升高的机制.     

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.     

Platelet alpha-granule secretion and its modification by SC-57101A,a GPIIb/IIIa antagonist

Platelet-agonist interaction results in aggregatory and secretory responses. While the activation of glycoprotein (GP) IIb/IIIa plays an essential role in platelet aggregation, its role in granule secretion is not clear. The present study was performed to examine the effect of 3-[[[[1-[4-(aminoiminomethyl) phenyl]-2-oxo-3S-pyrrolidinyl]amino]carbonyl]amino]-propanoate monohydrochloride salt (SC-57101A), a GPIIb/IIIa antagonist, on platelet alpha-granule secretion responses to collagen, ADP, and thrombin receptor activating peptide (TRAP). Both SC-57101A and prostaglandin E(1) (PGE(1)) inhibited collagen-, ADP-, and TRAP-induced platelet aggregation in a concentration-dependent manner. SC-57101A inhibited the collagen- and ADP-induced release of platelet-derived growth factor (PDGF) and beta-thromboglobulin (beta-TG) from platelets, but not TRAP-induced secretion of these granule contents. On the other hand, PGE(1) inhibited the release of PDGF and beta-TG from platelets activated with all the agonists used. ADP and TRAP elicited P-selectin expression in the absence of platelet aggregation, while collagen produced no such reaction. SC-57101A only moderately inhibited P-selectin expression induced by ADP and had no inhibitory effect on that induced by TRAP. The inhibition of ADP-induced secretion of alpha-granule contents by SC-57101A was abolished when platelets were pretreated with aspirin. These results suggest that GPIIb/IIIa activation plays a minor role, if any, in alpha-granule secretion in human platelets.     

2-(2-Br-phenyl)-8-methoxy-benzoxazinone (HPW-RX2), a direct thrombin inhibitor with a suppressive effect on thromboxane formation in platelets

2-(2-Br-phenyl)-8-methoxy-benzoxazinone (HPW-RX2), a newly synthetic benzoxazinone derivative, has previously been shown to inhibit rabbit platelet aggregation caused by thrombin and arachidonic acid. In the present study, the mechanism for the antiplatelet effect of HPW-RX2 was further investigated. In human platelets, HPW-RX2 concentration-dependently inhibited platelet aggregation, ATP release, P-selectin expression, and intracellular calcium mobilization caused by thrombin. In contrast, HPW-RX2 had no significant effect on either SFLLRN- or GYPGKF-induced platelet aggregation, indicating that HPW-RX2 did not interfere with platelet thrombin receptors. Moreover, HPW-RX2 inhibited the amidolytic activity of thrombin and prolonged the fibrinogen clotting time. These results suggest that the inhibitory effect of HPW-RX2 on thrombin-induced platelet aggregation is via direct inhibition of thrombin proteolytic activity. Besides the inhibition on thrombin, HPW-RX2 also prevented platelet aggregation, ATP release, and increase in [Ca2+]i caused by arachidonic acid and low concentration collagen. In a parallel manner, both arachidonic acid-induced thromboxane B2 and prostaglandin D2 formations were decreased in platelets treated with HPW-RX2. This indicates that HPW-RX2 is able to inhibit the arachidonic acid cascade at the cyclooxygenase level. This is the first report of a benzoxazinone derivative possessing both thrombin and cyclooxygenase inhibitory properties. The dual effect of HPW-RX2 might provide extra therapeutic benefits for treatment of arterial thrombosis.     

丁基苯酞对大鼠血栓形成及血小板功能的影响

目的研究消旋、左旋和右旋丁基苯酞(dl-,l-和d-NBP)对血栓形成及血小板功能的影响。方法利用半体外血栓形成术及比浊法,观察dl-,l-和d-NBP及阿司匹林(Asp)对大鼠血栓湿重和血小板聚集率的影响,并用放免法、荧光分光光度法测定其对血小板内cAMP和TXB2的水平以及血小板5-HT释放率的影响。结果ip,dl-NBP和l-NBP可剂量依赖性地抑制大鼠血栓形成,且l-NBP作用与Asp相似,d-NBP对半体外血栓形成无显著作用;dl-,d-和l-NBP可显著抑制胶原、ADP、花生四烯酸诱导的血小板聚集。结论NBP有抗血栓作用,l-NBP作用最强,dl-NBP作用较弱,其抗栓作用与升高血小板内cAMP的含量及抑制5-HT释放有关。     

Effects of 6-[p-(4-phenylacetylpiperazin-1-yl)phenyl]-4,5-dihydro-3(2H)pyridazinone (CCI 17810) and aspirin on platelet aggregation and adhesiveness.

1. The effects of 6-[p-(4-phenylacetylpiperazin-1-yl)]-4,5-dihydro-3(2H)pyridazinon (CCI 17810) on platelet aggregation and adhesiveness have been investigated and compared with those of aspirin. 2. In vitro, CCI 17810 was a potent inhibitor of the aggregation of human platelets induced by collagen, adenosine 5'-diphosphate (ADP) (primary response), thrombin and arachidonic acid, with EC50 values in the range 0.5 to 10 micrograms/ml. The second phase of the response to adrenaline was blocked by concentrations in the range 15 to 25 micrograms/mg. Platelets from rats, rabbits and dogs were as sensitive as human platelets to the effects of CCI 17810. Aspirin was nearly as effective as CCI 17810 against collagen, and adrenaline but about 10 times less active against arachidonic acid; it did not inhibit the primary response to ADP and was only a weak inhibitor of thrombin-induced aggregation. 3. In mice, single oral doses of CCI 17810 in the range 12.5 to 100 mg/kg inhibited collagen-induced thrombocytopenia. Arachidonic acid-induced mortality was markedly reduced by 10 mg/kg and possibly slightly reduced by 1 mg/kg. Aspirin was considerably less active than CCI 17810 in inhibiting collagen-induced thrombocytopenia but was almost as active as CCI 17810 in reducing arachidonic acid-induced mortality. 4. In vitro, CCI 17810 reduced the adhesiveness of human platelets to glass beads (retention of platelets in glass bead columns). Single oral doses of CCI 17810 in the range 25 to 200 mg/kg reduced mouse platelet adhesiveness; rat platelet adhesiveness was reduced by doses in the range 12.5 to 100 mg/kg. Aspirin (20 or 200 mg/kg) slightly increased mouse platelet adhesiveness.     

Cardiotoxin from Naja naja atra snake venom: A potentiator of platelet aggregation

Cardiotoxin, isolated from Naja naja atra snake venom, potentiates platelet aggregation induced by ADP, thrombin, collagen and venom phospholipase A₂. The malondialdehyde formation caused by ADP, thrombin and venom phospholipase A₂ were also increased in the presence of cardiotoxin. Both potentiation of aggregation and increase in malondialdehyde were blocked by indomethacin or Ca²⁺ (5 mM or 0.05 mM). Cardiotoxin did not potentiate thrombin-induced aggregation of p-bromophenacyl bromide-modified platelets. Thromboxane B₂ formation induced by thrombin or collagen was also increased by cardiotoxin, while that by arachidonate was not affected. As a membrane-active polypeptide, cardiotoxin might augment the Ca²⁺-flux during the activation of the platelet membrane by aggregation inducers and then increase the activation of endogenous phospholipase A₂.     

Antagonists of PAF-acether do not suppress thrombin-induced aggregation of ADP-deprived and aspirin-treated human platelets

Four chemically distinct PAF-acether antagonists were used to test the hypothesis that the cyclooxygenase and ADP-independent thrombin-induced aggregation of human platelets is due to PAF-acether. The compounds 48740 RP, CV-3988, BN 52021 and Ro 19-3704 inhibited aggregation by PAF-acether whereas 48740 RP also interfered with aggregation by arachidonic acid, U 46619, collagen and thrombin. Aspirin-treated platelets aggregated in response to PAF-acether and to 0.25 U/ml thrombin as much as control platelets in absence of detectable thromboxane A2, and were less responsive to 0.05-0.1 U/ml. Thrombin-induced aggregation of aspirin-treated platelets was unaffected by the PAF-acether antagonists BN 52021, CV-3988 and Ro 19-3704. In separate experiments, platelets were exposed for five min to convulxin, a glycoprotein extracted from a snake venom, which depletes granular ADP and ATP. A combination of PGI2, aspirin and anticrotalid serum used to disaggregate allowed the recovery of approximately 80% free platelets, which failed to respond to PAF-acether, but still aggregated in presence of thrombin. This residual ADP and cyclooxygenase-independent aggregation is not accountable for by the platelet formation of PAF-acether, since it was not modified by the latters' antagonists nor by platelet exposure to convulxin. Our results do not support the proposal that PAF-acether mediates a third pathway of human platelet aggregation.     

Pharmacological characteristics of solid-phase von Willebrand factor in human platelets.

1. The pharmacological characteristics of solid-phase von Willebrand factor (svWF), a novel platelet agonist, were studied. 2. Washed platelet suspensions were obtained from human blood and the effects of svWF on platelets were measured using aggregometry, phase-contrast microscopy, flow cytometry and zymography. 3. Incubation of platelets with svWF (0.2 - 1.2 microg ml(-1)) resulted in their adhesion to the ligand, while co-incubations of svWF with subthreshold concentrations of ADP, collagen and thrombin resulted in aggregation. 4. 6B4 inhibitory anti-glycoprotein (GP)Ib antibodies abolished platelet adhesion stimulated by svWF, while aggregation was reduced in the presence of 6B4 and N-Acetyl-Pen-Arg-Gly-Asp-Cys, an antagonist of GPIIb/IIIa. 5. Platelet adhesion stimulated with svWF was associated with a concentration-dependent increase in expression of GPIb, but not of GPIIb/IIIa. 6. In contrast, collagen (0.5 - 10.0 microg ml(-1)) caused down-regulation of GPIb and up-regulation of GPIIb/IIIa in platelets. 7. Solid-phase vWF (1.2 microg ml(-1)) resulted in the release of MMP-2 from platelets. 8. Inhibition of MMP-2 with phenanthroline (10 microM), but not with aspirin or apyrase, inhibited platelet adhesion stimulated with svWF. 9. In contrast, human recombinant MMP-2 potentiated both the effects of svWF on adhesion and up-regulation of GPIb. 10. Platelet adhesion and aggregation stimulated with svWF were reduced by S-nitroso-n-acetyl-penicillamine, an NO donor, and prostacyclin. 11. Thus, stimulation of human platelets with svWF leads to adhesion and aggregation that are mediated via activation of GPIb and GPIIb/IIIa, respectively. 12. Mechanisms of activation of GPIb by svWF involve the release of MMP-2, and are regulated by NO and prostacyclin.     

Diversity of the pharmacological actions of some tolazoline analogues in human platelets and rat aorta.

Tolazoline and two 4'-substituted benzyl analogues, 2-(4'-aminobenzyl) imidazoline (ABI) and 2-(4'-isothiocyanatobenzyl)imidazoline (IBI) were synthesized and evaluated for adrenoceptor activity in human platelets (alpha 2) and rat aorta (alpha 1), respectively. IBI was prepared as an affinity label for alpha-adrenoceptors and compared with chloroethylclonidine. Tolazoline, IBI, ABI and chloroethylclonidine inhibited the primary and secondary waves of epinephrine-induced human platelet aggregation. In aspirin treated platelets, primary wave aggregatory responses to epinephrine were blocked in a competitive manner by tolazoline, ABI. IBI and chloroethylclonidine giving pA2 values of 6.33, 6.12, 4.71 and 5.70, respectively. Only IBI blocked the aggregation responses to ADP (secondary wave only) arachidonic acid and U46619 (a thromboxane A2 agonist). Arachidonic acid-induced serotonin release and malondialdehyde formation and thrombin-induced release of [3H]arachidonic acid from membrane phospholipids were also blocked by IBI. These data indicate that IBI blocks arachidonic acid release, prostaglandin biosynthesis and the action of thromboxane A2. One hour exposure of aspirin treated platelets with IBI abolished inhibitory effects against epinephrine induced aggregation. In contrast to human platelets, both ABI and IBI produced contractions of rat aorta; however, only the responses to ABI were blocked in a competitive manner by the alpha-antagonists, phentolamine, prazosin, and SKF 104078. Moreover, idazoxan blocked the stimulatory actions of IBI, cirazoline and phenylephrine on rat aorta.(ABSTRACT TRUNCATED AT 250 WORDS)     

Identification,regulation and role of tissue inhibitor of metalloproteinases-4 (TIMP-4) in human platelets

1. Matrix metalloproteinase-2 (MMP-2) released during activation of human platelets by aggregating agents and cancer cells is known to stimulate platelet aggregation. 2. The expression, activity and role of tissue inhibitors of metalloproteinases (TIMPs), natural inhibitors of MMPs, in isolated human platelets were investigated. 3. Western blot, reverse zymography, immunogold electron microscopy, aggregometry (collagen-, thrombin and HT-1080 human fibrosarcoma cells-induced aggregation), flow cytometry and the release of (14)C-serotonin from labelled platelets recruited to the aggregate were used to characterize the presence and function of platelet TIMPs. 4. TIMP-4 (23 kDa) has been identified as the major MMP inhibitor (12-16 ng per 10(8) platelets) in human platelets. Platelets expressed lower (<1 ng per 10(8) platelets) amounts of TIMP-1. No other TIMPs were detected using Western blot analysis. 5. TIMP-4 co-localized with MMP-2 in resting platelets and was released upon platelet aggregation induced by collagen and thrombin. 6. Collagen resulted also in the release of higher molecular weight (60 kDa) complexes of TIMP-4. 7. The release of TIMP-4 was reduced by prostacyclin and S-nitroso-glutathione (GSNO), an NO donor. 8. Human recombinant TIMP-4 (rTIMP-4), but not human rTIMP-1, inhibited partially both platelet aggregation and recruitment. 9. The recombinant TIMP-4 potentiated the recruitment inhibitor effects of GSNO. 10. TIMP-4 was not released during platelet aggregation induced by HT-1080 cells. 11. Human rTIMP-4 exerted a biphasic effect on HT-1080 cells-induced aggregation. 12. Thus, TIMP-4 is the major intraplatelet MMP inhibitor and it is involved in regulation of platelet aggregation and recruitment.     

LB30057 inhibits platelet aggregation and vascular relaxation induced by thrombin

Previous study showed that an amidrazonophenylalanine derivative, LB30057, which has high water solubility, inhibited the catalytic activity of thrombin potently by interaction with the active site of thrombin. In the current investigation, we examined whether LB30057 inhibited platelet aggregation and vascular relaxation induced by thrombin. Treatment with LB30057 to platelet-rich plasma (PRP) isolated from human blood resulted in a concentration-dependent inhibition of thrombin-induced aggregation. Values for IC50 and IC100 were 54 +/- 4 nM and 96 +/- 3 nM, respectively. This inhibition was agonist (thrombin) specific, since IC50 values for collagen and ADP were much greater than those for thrombin. In addition, concentration-dependent inhibitory effects were observed on the serotonin secretion induced by thrombin in PRP. Consistent with these findings, thrombin-induced increase in cytosolic calcium levels was inhibited in a concentration-dependent manner. When LB30057 was treated with aortic rings isolated from rats, LB30057 resulted in a concentration-dependent inhibition of thrombin-induced vascular relaxation. All these results suggest that LB30057 is a potent inhibitor of platelet aggregation and blood vessel relaxation induced by thrombin.