A comparative study of the effects of adrenoceptor antagonists on platelet aggregation and thromboxane generation

Platelet aggregation and thromboxane A2 have been implicated in the pathogenesis of several forms of vascular disease. The aim of this study was to determine the effect of a wide range of adrenoceptor antagonists on platelet aggregation, and thromboxane A2 production, from normal human platelet rich plasma in vitro. Labetalol, pindolol and propranolol inhibited platelet aggregation to collagen in a dose dependent manner. Increasing the concentration of collagen "shifted" the dose response curve to the right. These 3 drugs also significantly inhibited thromboxane A2 generation in response to collagen but not to arachidonic acid. This effect was independent of any inhibitory effect of these drugs on platelet aggregation, and occurred at a drug concentration close to that obtained in vivo. Atenolol, metoprolol, prazosin and timolol were similarly assessed but had no effect on either platelet aggregation or thromboxane A2 generation. This ability of labetalol, pindolol, and propranolol to inhibit platelet aggregation and thromboxane generation, may be of clinical benefit in view of the increasing evidence implicating thromboxane A2 in the pathogenesis of vascular disease.     

Multiple electrode aggregometry: a new device to measure platelet aggregation in whole blood

Several methods are used to analyse platelet function in whole blood. A new device to measure whole blood platelet aggregation has been developed, called multiple electrode platelet aggregometry (MEA). Our aim was to evaluate MEA in comparison with the single platelet counting (SPC) method for the measurement of platelet aggregation and platelet inhibition by aspirin or apyrase in diluted whole blood. Platelet aggregation induced by different concentrations of ADP, collagen and TRAP-6 and platelet inhibition by apyrase or aspirin were determined in citrateor hirudin-anticoagulated blood by MEA and SPC. MEA indicated that spontaneous platelet aggregation was lower, and stimulated platelet aggregation was higher in hirudin- than citrate-anticoagulated blood. In hirudin-anticoagulated, but not citrate-anticoagulated blood, spontaneous platelet aggregation measured by MEA was inhibited by apyrase. For MEA compared with SPC the dose response-curves of agonist-induced platelet aggregation in citrate- and hirudin-blood showed similar EC50 values for TRAP, and higher EC50 values for ADP (non-significant) and collagen (p < 0.05). MEA and the SPC method gave similar results concerning platelet-inhibition by apyrase and aspirin. MEA was more sensitive than SPC to the inhibitory effect of aspirin in collagen-induced aggregation. In conclusion, MEA is an easy, reproducible and sensitive method for measuring spontaneous and stimulated platelet aggregation, and evaluating antiplatelet drugs in diluted whole blood. The use of hirudin as an anticoagulant is preferable to the use of citrate. MEA is a promising technique for experimental and clinical applications.     

Heparin-induced platelet aggregation: Dose/response relationships for a low molecular weight heparin derivative (pk 10169) and its subfractions

Addition of heparin or heparin derivatives to citrate anticoagulated platelet-rich plasma caused platelet aggregation in a dose-dependent manner. Utilizing heparin, a low molecular weight heparin derivative (PK 10169) and its various subfractions, we determined dose/response relationships for platelet aggregation and found that the ability of these agents to cause platelet aggregation was dependent upon the molecular weight of the individual subfraction used. In comparison to unmodified porcine mucosal heparin, the lower molecular weight derivative (PK 10169) yielded a dose/response curve that was shifted down and to the right, and indicated that this agent was less potent in causing platelet aggregation. In addition, as the molecular weight of PK 10169 subfractions decreased, their dose/response curves were progressively shifted down and to the right. The lowest molecular weight subfraction was essentially without platelet aggregating activity. We also measured the anti IIa and anti Xa activities of these agents and concluded that these activities did not appear to correlate with platelet aggregating activity. Platelet aggregation studies with PK 10169 subfractions of high and low affinity for antithrombin III (AT III) indicated that the platelet aggregating activity of these compounds may not be related to their affinity for AT III, but results were not definitive.     

Assessment of ADP-induced platelet aggregation with light transmission aggregometry and multiple electrode platelet aggregometry before and after clopidogrel treatment

The level of platelet aggregation, measured with light transmission aggregometry (LTA) in platelet rich plasma (PRP), has been shown to predict outcomes after percutaneous coronary intervention (PCI). However, measuring parameters of platelet function with LTA is time consuming and weakly standardized. Thus, a fast and standardized method to assess platelet function after clopidogrel treatment would be of great value for clinical practice. A new method, multiple electrode platelet aggregometry (MEA), to rapidly measure platelet aggregation in whole blood has recently been developed. The aim of this study was to assess parameters of platelet function with MEA and LTA before and after administration of 600 mg clopidogrel. Blood samples from 149 patients scheduled for coronary angiography were taken after clopidogrel treatment; in addition, in 60 of the patients samples were available before clopidogrel treatment. ADP-induced platelet aggregation was measured with LTA and simultaneously in whole blood with MEA on the Multiplate analyzer. Platelet aggregation measured with MEA decreased significantly after clopidogrel treatment (P < 0.0001). ADP-induced platelet aggregation assessed with MEA and LTA correlated significantly (Spearman rank correlation coefficient = 0.71; P < 0.0001). The results of MEA, a fast and standardized method to assess the platelet response to ADP prior to and after clopidogrel treatment, correlate well with LTA.     

Binding of aggregated immunoglobulins to the human platelet Fc receptors: a mechanism of platelet to platelet bridging

Aggregated immunoglobulins react with human platelets by occupying the Fc receptors present on their surface, inducing aggregation and the release reaction. We studied the effect of heat aggregated gammaglobulins (HAGG) on ADP-induced aggregation of platelets. We used the minimum concentration of ADP required to induce a reversible aggregation of platelets without any substantial amount of serotonin (14C-5HT) release. EDTA (5 mM) added at the peak of platelet aggregation resulted in rapid deaggregation of these platelets. However, incubation of platelets with HAGG at a dose that did not by itself induce any aggregation or release reaction, followed by ADP addition resulted in an irreversible platelet aggregation of greater magnitude accompanied by a substantial release of 14C-5HT. The addition of EDTA at the peak of platelet aggregation failed to deaggregate these platelets. To determine whether the augmented aggregation response and the inhibition of deaggregation was due to HAGG or a consequence of platelet release products, we used thrombin-degranulated platelets. The augmented aggregation response and the inhibition of deaggregation due to HAGG and ADP could be demonstrated using these platelets. To confirm that the binding of HAGG to the platelet Fc receptors was responsible for these observations, we incubated platelets with an excess of Fc fragments of IgG prior to the addition of HAGG and ADP. This abolished the aggregation response observed previously. From this study we conclude that interplatelet bridging by HAGG renders the platelets hyperaggregable and appears to be a mechanism involved in maintaining platelet aggregates.     

Ex vivo evaluation of anti-GPVI antibody in cynomolgus monkeys: dissociation between anti-platelet aggregatory effect and bleeding time

Recent progress in the understanding of thrombus formation has suggested an important role of glycoprotein (GP)VI. In contrast to its pivotal role in collagen-induced platelet activation, it has been suggested that its blockade does not induce massive bleeding tendency. To demonstrate the dissociation between inhibitory effect on platelet aggregation and bleeding by GPVI blockade, we examined the effects of Fab fragment of OM2, an anti-human GPVI monoclonal antibody on ex vivo collagen-induced platelet aggregation and skin bleeding time after intravenous injection in cynomolgus monkeys. In a dose-escalation study, OM2 potently (> 80%) inhibited collagen-induced platelet aggregation at the cumulative dose of 0.2 mg/kg with a slight prolongation of bleeding time (1.3 times baseline value). Furthermore, at 18.8 mg/kg, the highest dose tested, prolongation of bleeding time was still mild (1.9 times). In contrast, abciximab, Fab fragment of anti-GPIIb/IIIa antibody prolonged bleeding time by 5.0 times at 0.35 mg/kg, the lowest effective dose on platelet aggregation. In a pharmacodynamic study, a bolus injection of OM2 at 0.4 mg/kg produced potent inhibition of collagen-induced aggregation up to six hours after injection, showing longer half-life than that of abciximab. The injection of OM2 Fab did not induce thrombocytopenia and GPVI depletion in monkeys. These results suggest that blockade of GPVI by antibody can exert a potent inhibitory effect on collagen-induced platelet aggregation with a milder prolongation of bleeding time than blockade of GPIIb/IIIa. This study indicates that OM2 has the potential to be developed as a new class of therapeutic tool.     

Prolongation of rat tail bleeding time caused by oral doses of a thromboxane synthetase inhibitor which have little effect on platelet aggregation

N (7-carboxyheptyl) imidazole is an inhibitor of platelet thromboxane synthetase that has no effect on the cyclooxygenase activity. An oral dose of the substance to rats (10 mg/kg) prolonged tail bleeding time from 170 +/- 13 sec to 284 +/- 22 sec. This oral dose also inhibited platelet thromboxane B2 production induced by collagen ex vivo but had little effect on the aggregation dose response curve. There was no effect on thrombin-induced aggregation. Neither the thrombocytopenia induced by the Arthus reaction nor thrombus formation on an implanted cotton thread were inhibited by oral doses of carboxyheptylimidazole up to 30 mg/kg. Similarly neither the prothrombin nor activated partial thromboplastin time were affected. It is postulated that this thromboxane synthetase inhibitor prolongs bleeding time nor by inhibiting platelet aggregation or blood coagulation but rather by preventing the vasoconstriction which would normally be caused by thromboxane A2.     

External Na+ is not required for Ca2+ mobilization in platelets stimulated with rattlesnake lectin or alpha-thrombin.

The effects of extracellular sodium on platelet aggregation and calcium mobilization in platelets stimulated with either rattlesnake (Crotalus atrox) lectin (RSL) or alpha-thrombin were compared. The absence of extracellular sodium had no effect on platelet aggregation or calcium mobilization in response to all levels of RSL tested. In contrast platelet aggregation was sodium-dependent in response to less than or equal to .2 units/ml alpha-thrombin. Surprisingly, calcium mobilization occurred in platelets treated with a threshold level of alpha-thrombin in the absence of external sodium. Thus sodium-dependent platelet aggregation in response to a low dose of thrombin apparently is not the result of sodium-dependent calcium mobilization.     

Alloxan-induced hyperglycemia in rabbits and the response of platelets to aggregating agents in vitro and to exposed subendothelium in vivo

Many patients with diabetes mellitus show increased platelet aggregation and prostaglandin synthesis in response to physiological agents such as ADP and collagen when their platelets are tested in platelet-rich plasma or washed platelet suspensions. However, the relationship between increased platelet aggregation in vitro and increased thrombosis in vivo is difficult to establish with certainty. We have developed an in vivo model system in rabbits which tests the response of platelets in circulating native blood to an arterial vessel wall with limited damage such as might occur in arteries of patients with diabetes mellitus. We have used this model system to investigate whether 5 to 9 weeks of alloxan-induced hyperglycemia increases platelet adhesion and aggregation on a damaged vessel wall in vivo as well as platelet aggregation in vitro. Our results show that rabbit platelet function is not affected by extreme hyperglycemia and suggest that alloxan-induced diabetes in the rabbit may not be a good model for human diabetes mellitus.     

Antithrombogenic effects of calcium channel blockers: synergism with prostacyclin and thromboxane synthase inhibitors

Four calcium channel blockers (nimodipine, nifedipine, verapamil and diltiazem) of three chemical classes were tested in vitro for inhibition of platelet aggregation using heparinized human platelet rich plasma. Both ADP- and thrombin-induced aggregation were inhibited as was the biosynthesis of thromboxane A2 in response to ADP or thrombin. However, the IC50's for the calcium channel blockers were greater than or equal to 110 microM. Nimodipine was also tested in combination with prostacyclin, the potent platelet antiaggregatory agent, or with a thromboxane synthase inhibitor, U63557A. At concentrations at which neither nimodipine or prostacyclin inhibited platelet aggregation greater than or equal to 10%, the two compounds is combination synergistically inhibited both ADP- and thrombin-induced platelet aggregation. U63557A inhibited biosynthesis of thromboxane A2 by platelets in response to ADP or thrombin, but did not inhibit either ADP- or thrombin-induced platelet aggregation. However, U63557A in combination with a threshold inhibitory concentration of nimodipine resulted in a synergistic inhibition of platelet aggregation induced by ADP or thrombin. These results suggest that calcium channel blockers may be of therapeutic value as a new class of antithrombogenic agents when used in combination with agents that inhibit either platelet aggregation or synthesis of platelet thromboxane A2.     

Effect of increasing doses of aspirin on platelet aggregation among stroke patients

BACKGROUND AND PURPOSE: Aspirin has been shown to reduce the risk of myocardial infarction and stroke. Some investigators believe that low-dose aspirin inhibits platelet aggregation to the same degree as high-dose aspirin. Our study aimed to assess the effect of increasing doses of aspirin on the degree of platelet aggregation induced by collagen and adenosine diphosphate (ADP) among stroke patients. METHODS: Sixteen poststroke patients were prescribed aspirin at daily doses of 40, 80, 160, 325, 650, and 1,300 mg, each dose to be taken for 14 days (total duration 12 weeks). Platelet aggregation studies using 2 microgram/ml collagen and 2 microM ADP were performed on platelet-rich plasma at baseline and on the 14th day of each dose. RESULTS: Platelet aggregation studies using 2 microgram/ml collagen at the start of treatment and at the 14th day of each dose revealed dose-dependent inhibition by aspirin starting at 40 mg/day, but was optimal at 80- 160 mg/day. ADP-induced platelet aggregation inhibition appears to be dose dependent up to 1,300 mg/day. CONCLUSION: Inhibition of collagen-induced platelet aggregation by aspirin appears to be optimal at 80-160 mg/day, while ADP-induced platelet aggregation inhibition by aspirin appears to be dose dependent up to 1,300 mg/day in our poststroke patients, albeit to a less remarkable degree at higher doses.     

Lack of association between the P2Y12 receptor gene polymorphism and platelet response to clopidogrel in patients with coronary artery disease

INTRODUCTION: Clopidogrel inhibits the ADP subtype P2Y(12) receptor. Recently, polymorphisms of this receptor have been associated with different degrees of platelet aggregation in healthy volunteers and have been suggested to modulate clopidogrel response. However, the role of gene sequence variations of the P2Y(12) receptor in patients treated with clopidogrel has not yet been assessed. MATERIALS AND METHODS: The T744C polymorphism of the P2Y(12) receptor gene was assessed in 119 patients: 36 undergoing coronary stenting receiving a 300 mg loading dose (Group A) and 83 on long-term clopidogrel (75 mg/day) treatment (Group B). Patients were divided into 2 subgroups according to the presence or absence of the C allele: carriers (CT heterozygotes and CC homozygotes) and non-carriers (TT homozygotes). Platelet aggregation, assessed by light transmittance aggregometry following ADP, collagen, TRAP and epinephrine stimuli, and platelet activation (GP IIb/IIIa activation and P-selectin expression), assessed by whole blood flow cytometry in ADP and TRAP-stimulated platelets, were performed. Platelet function was assessed at baseline and 4 and 24 h following clopidogrel loading dose in Group A and when patients where on clopidogrel treatment for at least 1 month in Group B. RESULTS: The genotype distribution of Group A was: 22/36 (61.1%) non-carriers and 14/36 (38.9%) carriers of the C allele; Group B: 57/83 (68.7%) non-carriers and 26/83 (31.3%) carriers of the C allele. There were no differences between groups for all the assessed platelet function assays. CONCLUSIONS: The T744C polymorphism of the P2Y(12) receptor gene does not modulate platelet response to clopidogrel either in the early or long-term phases of treatment. This specific gene polymorphism alone is therefore unlikely to be the cause of variability in individual response to antiplatelet therapy.     

Effect of acetylsalicylic acid on platelet aggregation and thromboxane B2 production in flowing aortic blood in the rat studied with a filter loop technique

A method of measuring $\text{in vivo}$ platelet function using a filter loop technique has been used to study platelet aggregation in response to Adenosine Diphosphate (ADP) and Sodium Arachidonate infusion in flowing aortic blood in the rat. ADP infusion produced reversible platelet aggregation $\text{in vivo}$ with no change in thromboxane B₂ (TXB₂) levels whereas sodium arachidonate infusion resulted in virtually irreversible aggregation with a rise in TXB₂ levels. Oral Acetylsalicylic Acid (ASA) in doses of 1–100 mg/kg had no effect on ADP induced aggregation but prevented platelet aggregation $\text{in vivo}$ induced by sodium arachidonate and the concomitant rise in TXB₂ levels.     

Dual effect of naloxone on blood platelet aggregation and cerebral blood flow in gerbils

The effect of naloxone on blood platelet aggregation and cerebral blood flow in gerbils was studied. Administration of naloxone in dose 1 mg/kg to intact gerbils resulted in a marked increase in platelet aggregability accompanied by 27% reduction in cerebral blood flow. Focal cerebral ischemic injury significantly enhanced platelet aggregatory response and treatment with naloxone was without any additional effect on platelet aggregation. Cerebral blood flow in ischemic hemisphere, however, increased following naloxone injection by 46%. In vitro naloxone in millimolar concentrations inhibited platelet aggregation in a dose-dependent way. Apparent decrease in fluorescence of platelet membranes tagged with fluorescence probe due to naloxone suggests conformational changes in platelet membrane as a primary mechanism for the antiaggregatory effect of naloxone in vitro.     

Heparin-induced platelet aggregation. II. Dose/response relationships for two low molecular weight heparin fractions (CY 216 and CY 222)

We have previously shown that unmodified heparin (bovine lung or porcine mucosal) and a low molecular weight heparin fraction, PK 10169, cause platelet aggregation in a dose and molecular weight-dependent manner. In this report, we show that two other low molecular weight heparin fractions, CY 216 and CY 222, also cause platelet aggregation in a dose and molecular weight-dependent manner. Utilizing heparin and defined fractions of CY 216 and CY 222 separated on the basis of molecular weight, we determined dose/response (D/R) relationships for each of these agents and their individual fractions. In comparison to an unmodified porcine mucosal heparin, CY 216 yielded a D/R curve that was shifted down and to the right, indicating that this agent is less potent in causing platelet aggregation. The D/R curve for CY 222, which has a lower molecular weight that CY 216, was shifted further down and to the right, indicating that it was less potent than CY 216. The D/R curves obtained with the fractions of CY 216 and CY 222 demonstrate that as the molecular weight of the fractions decrease, they become progressively less potent in causing platelet aggregation. Fractions with molecular weights of less than approximately 3,000 daltons are essentially without activity in causing platelet aggregation. Platelet aggregation studies with CY 216 and CY 222 fractions separated on the basis of affinity for antithrombin III (AT III) indicate that the platelet aggregating activity of these agents may not be related to their affinity for AT III. However, these latter results are not conclusive and need to be expanded.     

A new bleeding disorder: lack of platelet aggregatory response to adrenaline and lack of secondary aggregation to ADP and platelet activating factor (PAF)

A bleeding disorder, probably familial, with absent adrenaline-induced platelet aggregation and lack of secondary aggregation response to ADP and platelet activating factor (PAF), is described. The laboratory findings do not fit any hitherto recognized hemorrhagic disease. The disorder was not caused by alpha-adrenergic receptor deficiency, but the ultimate defect has not yet been unraveled. This patient illustrates that a normal response to more than one aggregating stimulus is necessary for normal hemostasis, and indicates a physiopathological role for adrenaline not hitherto recognized. Whether this also applies to PAF remains to be proven.     

Evaluation of a quantitative platelet-collagen adhesiveness test system

A method is described for the quantitative measurement of the blood platelet-collagen reaction, in which the adhesiveness of blood platelets is measured with a standard collagen suspension. Though glass has been used in many blood platelet adhesiveness tests, collagen fibers are a more biological substrate. The test, as developed, involves the mixing of a pre-determined volume of a standard collagen suspension (that which produces ～ 50% adhesion in normal PRP) to an aliquot of platelet-rich plasma (platelet count adjusted to 400,000/mm³), shaking with a vortex shaker for 5 seconds, and fixing immediately with glutaraldehyde fixative. The mixture is then centrifuged at 100 × g and a platelet count determined on the supernatant. Percent decrease in platelet count over blank is used as the platelet adhesiveness index. If the PRP-collagen mixture is shaken for 5 seconds but not fixed with glutaraldehyde for 30 seconds, platelet aggregation also occurs. This decreases the platelet count even further; such a measurement can be used to distinguish conditions or agents that affect aggregation but not adhesion. The method is illustrated by determinations of the effects of chlorpromazine and EDTA $\text{in vitro}$ and aspirin $\text{in vivo}$, and the effect of dialysis on the adhesiveness index and platelet aggregation in uremic patients. The results indicated that chlorpromzine inhibited adhesion while EDTA did not, but EDTA inhibited the subsequent aggregation. Aspirin did not inhibit adhesion, but inhibited aggregation.The uremic patients had a very low adhesiveness index before dialysis. Dialysis improved the adhesiveness index, but it still was lower than normal. This method could be valuable both clinically and preclinically to test compounds for pharmacologic activity.     

A method of testing platelet aggregation in native whole blood

A method of testing collagen induced platelet aggregation and ATP release in native (= non anticoagulated) whole blood by monitoring the electrical impedance in the Chrono Log Whole Blood Aggregometer is reported. It is the first simple method by which aggregation of human platelets can be measured in their natural environment. In normal individuals lower threshold collagen concentrations could induce platelet aggregation as determined with this method than in the other tested methods (impedance method with citrated blood, optical method in platelet rich plasma). The aggregation response was not inhibited by hirudin or heparin in therapeutic dose. The luminescence channel of the Whole Blood Aggregometer permits measurements of ATP release in native whole blood.     

Serotonergic responsivity in male young adults with autistic disorder. Results of a pilot study

Altered serotonergic function has been postulated to exist in autistic disorder. Central serotonergic responsivity was assessed with a neuroendocrine challenge test in seven male young adults with autistic disorder and in seven age- and gender-matched healthy controls. Binding indexes and physiologic responsivity of the platelet serotonin-2 (5-HT2) receptor complex were also measured, as was whole-blood serotonin content. Compared with controls, autistic subjects had substantially blunted prolactin release in response to a 60-mg oral dose of fenfluramine hydrochloride, an indirect serotonin agonist [corrected]. Furthermore, the magnitude of serotonin-amplified platelet aggregation, mediated by the platelet 5-HT2 receptor complex, was reduced in the autistic group, as was the mean number of platelet 5-HT2 receptor sites. Among autistic subjects, fenfluramine-induced prolactin release correlated positively with the serotonin-amplified platelet aggregation response and negatively with whole-blood serotonin content. The results of the present study are compatible with the hypothesis that central serotonergic responsivity is decreased in male autistic young adults. Correlations between central and peripheral serotonergic measures in autistic subjects suggest that systemic alterations in serotonergic function may occur in autism.     

Why single daily dose of aspirin may not prevent platelet aggregation

The effect of different doses of aspirin on the synergistic activity of sodium arachidonate plus platelet activating factor (paf) ADP or collagen in platelet aggregation was studied in human volunteers. Aggregation studies in platelet rich plasma (PRP) showed that aspirinated platelets, unresponsive to arachidonate, when stirred with threshold concentrations of paf, ADP or collagen, reacted differently according to the dose of aspirin and the time elapsed since ingestion. After a single or daily 50 mg dose for 7-10 days independent of elapsed time until blood withdrawal, a complete synergistic activity was obtained. In PRP samples obtained 24 hours after the last aspirin intake, a complete synergistic aggregation was achieved after a single dose or after 7-10 days of 500 mg aspirin ingestion; synergistic effect did not appear when blood was drawn 2.5 hours after intake. The thromboxane B2 concentrations were very low in all samples after PRP stimulation with sodium arachidonate or paf or both. As rationale is that platelet activation in vivo occurs in response to several stimuli, the therapeutic implications of our results is that aspirin may not prevent the agonist potentiation effect when low dose or daily high dose (500mg) are administrated. This may explain the erratic results of most aspirin trials in which this drug was used to suppress platelet function.