Pennogenin tetraglycoside stimulates secretion-dependent activation of rat platelets: evidence for critical roles of adenosine diphosphate receptor signal pathways

Background

Total steroidal saponins extracted from the rhizome of Paris polyphylla Sm. var. yunnanensis (TSSPs) have been demonstrated to promote hemostasis in vivo and induce platelet aggregation in vitro. Pennogenin tetraglycoside (Tg) has been identified as one of the active ingredients in TSSPs and can induce rat platelet aggregation.

Objective

To investigate the functional role of Tg in platelets and the signaling pathway mechanisms which mediate Tg-induced platelet aggregation.

Methods and results

Using scanning electron microscopy, the turbidimetric method and flow cytometry, we demonstrated that Tg induces shape change and concentration-dependently induces aggregation, dense granule secretion and a-granule secretion in rat platelets. The activation characteristics were comprehensively confirmed using transmission electron microscopy. Apyrase and antagonists of the platelet adenosine diphosphate (ADP) receptors, P2Y1 and P2Y12, completely inhibited Tg-induced platelet aggregation, which was not sensitive to indomethacin or SQ29548 inhibition. Furthermore, ADP receptor antagonists inhibited Tg-induced a-granule secretion, and blockade of the P2Y1 receptor prevented Tg-induced platelet shape changes. Tg-induced dense granule secretion was not affected by ADP receptor antagonists or various various pharmacological inhibitors of the intracellular effectors involved in dense granule secretion signaling pathways.

Conclusion

We identified that Tg directly induces platelet activation and demonstrated that Tg-induced platelet activation depends on dense granule secretion of ADP, which in turn activates the P2Y1 and P2Y12 receptor signaling pathways.     

Reference intervals for platelet aggregation assessed by multiple electrode platelet aggregometry

Introduction

Analyses of platelet aggregation in hirudin whole blood using Multiplate® was validated. Reference intervals for the most commonly used agonists were established, and the association between platelet aggregation, age, gender and haematological values was analysed.

Material and methods

We included 121 healthy individuals to establish reference intervals and six healthy individuals for evaluation of the day-to-day variation. Platelet aggregation was evaluated on hirudin whole blood employing Multiplate® induced by arachidonic acid, ADP, collagen and ristocetin (RISTOlow and RISTOhigh). Measurements of haematological values were performed employing Sysmex K-4500.

Results

We found no association between platelet aggregation and age (p > 0.57 for all agonists, except RISTOlow: p = 0.05). Platelet aggregation was significantly higher in women compared to men for all agonists (p < 0.0003), except RISTOlow (p = 0.05). A reference interval is presented as 95% confidence interval suitable for any age and both sex. Day-to-day variation was < 11% for all agonists except for RISTOlow. No association was found between platelet aggregation and haematocrit or red blood cell count after adjusting for age and gender except for RISTOhigh. A positive significant association was found between platelet count and platelet aggregation (p < 0.04). Finally, a significant positive association was found between platelet aggregation and white blood cell count for all agonists (p < 0.05) except RISTOlow and RISTOhigh (p > 0.05).

Conclusion

Reference intervals for platelet aggregation in healthy individuals (age: 17 to 66 years) were established in hirudin whole blood measured by Multiplate® employing the most commonly used agonists.     

Insights into the interpretation of light transmission aggregometry for evaluation of platelet aggregation inhibition by clopidogrel

Introduction

When studying the efficacy of clopidogrel to inhibit platelet aggregation by light transmission aggregometry, technical decisions must be taken prior to assessment or during analysis, including, but not limited to, concentration of agonist to use and timing of the evaluation of the response on the aggregation curve obtained (peak ADP-stimulated platelet aggregation vs. late aggregation). We investigated how some of these technical modalities affected the results of platelet aggregation obtained after clopidogrel administration.

Materials and methods

One hundred and twenty stable coronary artery disease patients requiring a diagnostic angiography were recruited prior to pre-treatment with clopidogrel. Blood samples were tested before clopidogrel initiation and immediately preceding coronary angiography using light transmission aggregometry with either 5 or 20 µM of ADP. Aggregation was measured at maximal amplitude (peak), and 5 minutes after agonist addition (late).

Results

While measurements of platelet aggregation as either peak or late aggregation were strongly correlated, peak platelet aggregation was significantly higher than late aggregation, by 10.8% and by 10.3% with ADP 5 and 20 µM, respectively. Moreover, the use of ADP 20 µM resulted in less spontaneous disaggregation than 5 µM in the absence of clopidogrel (11.8% and 4.8% with ADP 5 µM and 20 µM, respectively).

Conclusions

When assessing platelet aggregation following clopidogrel, measurement of late aggregation after addition of ADP 20 µM should be preferred. Large clinical trials should be conducted to assess which parameter between residual aggregation or inhibition of platelet aggregation by clopidogrel best predicts clinical efficacy of the drug.     

Smoking promotes clopidogrel-mediated platelet inhibition in patients receiving dual antiplatelet therapy

Background

High on-treatment residual platelet reactivity is associated with an increased risk of adverse events after coronary stenting. Recent data suggest that cigarette smoking might enhance clopidogrel-mediated platelet inhibition. We therefore sought to investigate the influence of cigarette smoking on clopidogrel- and aspirin-mediated platelet inhibition after percutaneous intervention with stent implantation.

Patients and methods

Platelet aggregation was assessed by the VerifyNow P2Y12 and aspirin assays in 102 patients on dual antiplatelet therapy 24 hours after peripheral, coronary or carotid artery stenting. Among these, there were 33 nonsmokers, 29 former smokers and 40 current smokers. Patients in the fourth quartile of the VerifyNow assays were considered as patients with high on-treatment platelet reactivity.

Results

Current smokers had significantly lower P2Y12 Reaction Units compared with nonsmokers (p = 0.028). Former smokers also had lower adenosine diphosphate (ADP)-inducible platelet aggregation than nonsmokers, but the difference was not significant (p = 0.52). A high on-treatment residual ADP-inducible platelet aggregation was more common among nonsmokers than among current smokers (14 vs 5; p = 0.004). In a multivariate regression analysis smoking was an independent influencing variable for post-treatment ADP-inducible platelet reactivity (p = 0.026). Aspirin-mediated platelet inhibition showed no significant differences between nonsmokers and former smokers or current smokers (p > 0.3).

Conclusion

By in vitro testing, cigarette smoking is associated with enhanced clopidogrel- but not aspirin-mediated platelet inhibition. The clinical implications have to be evaluated in large prospective trials.     

Protease activated receptor-1 (PAR-1) mediated platelet aggregation is dependent on clopidogrel response

Introduction

Clopidogrel inhibits ADP mediated platelet aggregation through inhibition of the P2Y12 receptor by its active metabolite. Thrombin induces platelet aggregation by binding to protease activated receptor-1 (PAR-1), and inhibition of PAR-1 has been evaluated in patients treated with clopidogrel to reduce ischemic events after acute coronary syndromes. Residual PAR-1 mediated platelet aggregation may be dependent on extent of clopidogrel response.

Material and Methods

Platelet aggregation was measured in 55 patients undergoing elective PCI at 16-24 hours after 600 mg clopidogrel loading dose by light transmittance aggregometry using ADP 20 μM and thrombin receptor agonist peptide (TRAP) at 15 μM and 25 μM as agonists. Genomic DNA was genotyped for common CYP2C19 variants.

Results

Increasing quartiles of 20 μM ADP induced platelet aggregation after clopidogrel loading were associated with increasing levels of TRAP mediated platelet aggregation. Patients in the highest quartile (clopidogrel non-responders) of post treatment ADP aggregation had significantly higher TRAP mediated aggregation than the patients in the lowest quartile (clopidogrel responders) [TRAP 15 μM: 79.6 ± 5% vs. 69.5 ± 8%, p < 0.001].

Conclusions

Non-responders to clopidogrel show increased residual platelet aggregation induced by TRAP, whereas clopidogrel responders exhibit attenuated response to TRAP. Addition of PAR-1 antiplatelet drugs may be most effective in patients with reduced clopidogrel response and high residual TRAP mediated platelet aggregation.     

Inhibition of tyrosine kinase activity prevents the adhesive and cohesive properties of platelets and the expression of procoagulant activity in response to collagen

Introduction

Platelet activation leads to signal transduction mechanisms, in which phosphotyrosine proteins play a relevant role.

Material and methods

Platelet suspensions were independently activated by collagen and thrombin in the absence and in the presence of two tyrosine kinase inhibitors, tyrphostin 47 and genistein. Samples were processed to visualize morphological changes by electron microscopy, to evaluate changes in cytoskeletal assembly, to analyze modifications in the expression of activation dependent antigens, and the procoagulant activity at the surface level by flow cytometry. Additional experiments applying flow conditions were performed to assess the effect of inhibiting tyrosine phosphorylation on primary platelet adhesion and fibrin formation.

Results

Inhibition of tyrosine phosphorylation blocked shape change and cytoskeletal assembly induced by collagen, and inhibited, though partially, those effects due to thrombin. Both activating agents induced the expression of the intraplatelet antigens CD62P and CD63 at the surface, although only collagen promoted expression of anionic phospholipids. Both tyrphostin 47 and genistein prevented those effects. The extent of platelet adhesion on both collagen-coated and subendothelial surfaces was significantly diminished by the presence of the tyrosine kinase inhibitors assayed. Fibrin formation was also significantly reduced.

Conclusions

Platelet shape change and secretion during platelet activation depends on tyrosine phosphorylation. In addition, primary adhesion of platelets induces signaling through tyrosine kinases to achieve full spreading, and results in the exposure of a procoagulant surface on platelets.     

Low Concentration Detergent Sclerosants Induce Platelet Activation but Inhibit Aggregation due to Suppression of GPIIb/IIIa Activation in vitro

Introduction

Sclerotherapy is associated with thromboembolic and ischemic neurological adverse events but the effects of sclerosants on platelet function are unknown. The aim of this study was to investigate the in vitro effects of detergent sclerosants Sodium Tetradecyl Sulphate (STS) and Polidocanol (POL) on platelet activation and aggregation.

Materials and Methods

Whole blood and platelet rich plasma samples were incubated with sclerosants. Platelet and platelet microparticle (PMP) counts were measured by flow cytometry. Platelet activation was examined by ELISA for soluble factors (sP-selectin, von Willebrand factor, sCD40L and serotonin) and by flow cytometry for membrane-bound markers (CD62p, CD63) and cytoplasmic calcium. Platelet aggregation was assessed by PFA-100®, light transmission and impedance (Multiplate®) aggregometry, and by flow cytometry for glycoprotein (GP) Ib and GPIIb/IIIa subunits, heterodimer expression and activation (PAC-1 binding).

Results

Both agents lysed platelets at high concentrations (≥ 0.1%) but induced platelet activation at lower concentrations as evident by a rise in membrane-bound and soluble markers, cytoplasmic calcium and release of phosphatidylserine + PMP. Agonist-stimulated platelet aggregation was inhibited by both sclerosants. Membrane expression of GPIb and GPIIb/IIIa individual subunits or heterodimer was not affected by sclerosants but the activation of GPIIb/IIIa was suppressed.

Conclusion

Low concentration sclerosants activated platelets and released microparticles but inhibited platelet aggregation due to suppression of GPIIb/IIIa activation.     

Antiplatelet and antithrombotic activities of salvianolic acid A

Introduction

Salvianolic acid A (SAA), the water-soluble phenolic acids in Salvia miltiorrhiza, has shown the most potent bioactivities, including protection against cerebral lesion, defense from oxidative damage and improvement of remembrance. In the present study, we studied the antiplatelet and antithrombotic effects of a newly synthesized SAA with different methods both in vitro and in vivo.

Materials and Methods

We tested the effect of antithrombotic activity of SAA in arterio-venous shunt model. The effects of SAA on adenosine diphosphate (ADP)-, Thrombin-, Arachidonic acid- induced rat platelets aggregation were tested both in vivo and in vitro. The activity of SAA on washed human platelet aggregation was determined by ADP stimulation. We also evaluated its property of modulation of hemorheology, assessed its bleeding side effect by measuring coagulation parameters after intravenous administration for 5 days and investigated the potential mechanisms underlying such activities.

Results and Conclusions

In vivo, SAA significantly reduced thrombus weight in the model of arterio-venous shunt. Meanwhile, SAA increased plasma cAMP level determined by radioimmunoassay in the same model. Intravenously administrated SAA (2.5-10 mg/kg) inhibited platelet aggregation induced by ADP in a dose-dependent manner. Notably, SAA did not affect coagulation parameters in rats after intravenous administration SAA for successive 5 days. In vitro, pretreatment with SAA on washed rat and human platelets significantly inhibited various agonists stimulated platelet aggregation and caused an increase in cAMP level in platelets activated by ADP. These findings support our hypothesis that SAA possesses antithrombotic activities. The antithrombotic effect might be related to its antiplatelet action and ability to modulate hemorheology without affecting coagulation system. The mechanisms underlying such activities may involve the induction of cAMP.     

Decreased phosphorylation of platelet vasodilator-stimulated phosphoprotein in periodontitis--a role of periodontal pathogens

Introduction

Epidemiological studies indicate an association between periodontitis and cardiovascular disease, but the underlying mechanisms are poorly understood. Vasodilator-stimulated phosphoprotein (VASP) in its phosphorylated form represents a regulator of platelet function and an indicator for the sensitivity of platelets towards physiologically relevant antagonists of platelet function.As platelets and their activation state play a central role in the development of cardiovascular disease, this study aimed to investigate the influence of periodontal disease and periodontal pathogens on intraplatelet VASP-phosphorylation and platelet function.

Material and Methods

Besides several markers of platelet activation, basal and PGE₁ induced intracellular VASP-phosphorylation were determined in platelets of periodontitis patients (n = 26) and healthy donors (n = 19). Furthermore, platelets from healthy donors were incubated with distinct periodontal pathogens and basal and PGE₁ induced VASP-phosphorylation was determined.

Results

Compared to controls, platelets of periodontitis patients showed a significant decrease in basal and PGE₁ induced VASP-phosphorylation. VASP-phosphorylation in platelets from periodontitis patients positive for Aggregatibacter actinomycetemcomitans, Porphyromonas gingivalis or Tannerella forsythia was significantly decreased compared to patients that were negative for these bacteria. Furthermore, VASP-phosphorylation in platelets isolated from healthy donors was affected by incubation with these periodontal pathogens.

Conclusions

Our results provide evidence that periodontitis interferes with VASP-phosphorylation in human platelets, presumably as a consequence of a direct effect of periodontitis-associated bacteria. Decreased basal and PGE₁ induced VASP-phosphorylation might represent a mechanism responsible for enhanced platelet activation in periodontitis.     

Pioglitazone inhibits platelet function and potentiates the effects of aspirin: a prospective observation study

Background

Thiazolidinediones (TZDs) are agonists of PPARγ and exert beneficial metabolic effects in patients with diabetes. They may also affect platelet function.

Objectives

To characterize potential platelet inhibitory effect of pioglitazone alone and in the presence of aspirin.

Methods

20 normal and 20 diabetic subjects were enrolled in a prospective study. On day 1, a blood sample was obtained at baseline and a second one after ingestion of 30 mg of pioglitazone. PRP was prepared and platelet aggregation and release were evaluated using ADP, collagen and arachidonic acid as agonists. Subjects returned at 6-9 days later after ingesting a single 81 mg dose of aspirin and a third blood sample was obtained. The subjects then again ingested 30 mg of pioglitazone and a fourth and final blood sample was obtained. Platelet aggregation and release were measured. PRP was incubated with thrombin to activate platelets, and the serum was separated and assayed for thromboxane B2, TGFβ and CD40L

Results

Pioglitazone alone did not affect aggregation with arachidonic acid. However, following ingestion of both aspirin and pioglitazone aggregation was significantly decreased compared to aspirin alone (P < 0.0001). Pioglitazone also potentiated aspirin-induced inhibition of ATP release using either arachidonic acid or collagen. Following pioglitazone alone, TXB₂ release was 32,719 ± 3,585 pg/ml which was significantly reduced compared to baseline (42,075 ± 4,479, P = 0.0004). Pioglitazone also potentiated the inhibition of TXB₂ release by aspirin.

Conclusion

Pioglitazone inhibits platelet function and potentiates the inhibitory effects of aspirin.     

Evaluation of the platelet count drop method for assessment of platelet function in comparison with “gold standard” light transmission aggregometry

Introduction

Hyporesponsiveness to antiplatelet agents has been linked to an increased risk of major adverse cardiovascular events. However, light transmission aggregometry (LTA), the gold standard methodology for assessing platelet function, requires expertise and is labour-intensive, which render its use in clinical settings impractical. We assessed whether platelet count drop (PCD), a technique widely available in any haematology laboratory, could replace LTA in testing for inhibition of platelet aggregation induced by antiplatelet agents.

Materials and methods

One hundred and sixty-one coronary artery disease patients taking aspirin alone and 91 patients taking a combination of aspirin and clopidogrel were enrolled. Platelet aggregation was measured by LTA and PCD stimulated with 1.6 mM of arachidonic acid (AA) for aspirin and 5 and 20 μM of adenosine diphosphate (ADP) for clopidogrel.

Results

Correlation between AA-induced LTA and PCD was inexistent (r = - 0.043, p = 0.587), while correlation between ADP-induced LTA and PCD was low (r = 0.374, p < 0.0001 for ADP 5 μM and r = 0.402, p < 0001 for ADP 20 μM). PCD, whether stimulated with AA or ADP, overestimated platelet aggregation as assessed by LTA, by 13-18%. The wide 95% limits of agreement suggest that the assays can disagree significantly in individual patients.

Conclusions

Although the PCD method is widely available in non-specialized laboratories, our results demonstrate that there is poor correlation with the current gold standard, i.e. LTA. Thus, PCD should not be used in replacement of LTA to assess antiplatelet responsiveness.     

Plasma and Whole Blood Clot Strength Measured by Thrombelastography in Patients Treated with Clopidogrel during Acute Coronary Syndromes

Introduction

Treatment with clopidogrel, a selective platelet P₂Y₁₂ receptor antagonist, reduces risk of recurrent ischemic events in patients with acute coronary syndrome (ACS), by limiting platelet aggregation and activation. Stable whole blood clot formation requires activation of platelets, generation of fibrin and final fibrin crosslinks. In this study we intended to compare plasma and whole blood thrombelastography (TEG) measurements in patients during ACS.

Materials and Methods

Whole blood and plasma samples from 32 patients with non-ST segment elevation myocardial infarction (NSTEMI) were collected after administration of clopidogrel. Whole blood and plasma fibrin clot strength (MA) were determined by TEG. Platelet aggregation was determined by light transmittance aggregometry (LTA) using adenosine 5'-diphosphate (ADP), thrombin receptor activation peptide (TRAP), or collagen as agonists. Fibrinogen and C-reactive protein (CRP) concentrations were measured by ELISA.

Results

Heightened plasma fibrin clot strength was associated with increased platelet reactivity stimulated by ADP (ρ = 0.536; p = 0.002), TRAP (ρ = 0.481; p = 0.007), and collagen (ρ = 0.538; p = 0.01). In contrast to plasma fibrin MA, whole blood MA did not correlate with platelet aggregation. Platelet count was the primary contributor to the difference in thrombin induced whole blood MA and plasma fibrin MA. Increasing levels of CRP were associated with increased plasma fibrin clot strength and platelet reactivity.

Conclusions

Our data suggest that inflammation is associated with increased plasma fibrin clot strength and lower platelet inhibition by clopidogrel during ACS. Platelet count is a main contributor to additional contractile force of whole blood TEG as compared to plasma TEG during treatment with clopidogrel.     

The Feverfew plant-derived compound, parthenolide enhances platelet production and attenuates platelet activation through NF-κB inhibition

Introduction

Few treatments are available that can safely and effectively stimulate new platelet production for thrombocytopenic patients. Additionally, recipients of transfused platelets may experience an inflammatory response due to stored platelets becoming unnecessarily activated, thus creating the need for suitable agents that will dampen undesirable platelet activation. We investigated the effect of the feverfew plant-derived compound, parthenolide on platelet production and platelet activation because of its well-studied ability to induce apoptosis or differentiation in some types of cancer.

Methods

Parthenolide was used to treat human megakaryoblastic cell lines, primary human and mouse megakaryocytes. Resulting platelet production and function was measured via flow cytometry. The two most common parthenolide signaling mechanisms, oxidative stress and nuclear factor-κB inhibition, were assessed within the megakaryocytes using reactive oxygen species, glutathione and luciferase reporter assays. The influence of parthenolide on ex vivo platelet activation was tested with parthenolide pretreatment followed by collagen or thrombin activation. The resulting P-selectin surface expression and released soluble CD40 ligand was measured.

Results

Parthenolide stimulates functional platelet production from human megakaryocyte cell lines, and from primary mouse and human megakaryocytes in vitro. Parthenolide enhances platelet production via inhibition of nuclear factor-κB signaling in megakaryocytes and is independent of the parthenolide-induced oxidative stress response. Additionally, parthenolide treatment of human peripheral blood platelets attenuated activation of stimulated platelets.

Conclusion

Overall, these data reveal that parthenolide has strong potential as a candidate to enhance platelet production and to dampen undesirable platelet activation.     

Aqueous extracts of Ocimum basilicum L. (sweet basil) decrease platelet aggregation induced by ADP and thrombin in vitro and rats arterio--venous shunt thrombosis in vivo

Objective

To study the effects of aqueous extract of Ocimum basilicum L (OBL) on platelet aggregation and experimental thrombus.

Methods

Platelet aggregation induced by ADP (5 μM) and thrombin (4 UI), and thrombus weight in an arteriovenous thrombosis (AVT) model were tested after 2 weeks treatment with 15, 75 and 375 mg/kg OBL orally in rats, compared to 8.8 mg/kg/day aspirin. AVT was also tested 2 h after 75 mg/kg OBL orally, after 3 and 7 days treatment, and one, three and seven days after the end of a two-week treatment. Analysis was done by ANOVA followed by protected t-tests (Tukey).

Results

OBL (15, 75, 375 mg/Kg) dose-dependently inhibits platelet aggregation by ADP and thrombin, with 75 mg/kg/day having approximately the same effect as 8.8 mg/kg/day aspirin. ADP induced aggregation reached 45%, 28% and 18% for OBL, respectively, 15, 75, 375 mg/kg compared to 71% for control and 27% for aspirin (all p < 0.01 except aspirin vs. OBL 75 mg/kg/day p = 0.7). Thrombin-induced aggregation reached 33%, 22%, 21% for OBL, respectively, 15, 75, 375 mg/kg compared to 67% for control and 48% for aspirin (all p < 0.01 except OBL 75 vs. OBL 375 mg/kg/day, p = 1.0). Compared to a control thrombus weight of 48.1 mg (SD 4.9), thrombus weight was 29.4 (3.3), 19.0 (1.9) and 12.3 (1.7) after treatment for 2 weeks with 15, 75 and 375 mg/kg OBL, respectively, and 27.4 (5.3) after 8.8 mg/kg aspirin (all p < 0.001 except aspirin vs. OBL 75 mg/kg/day p = 1.0). Maximum effect of OBL was reached after one week's treatment. The effect subsided between 3 and 7 days.

Conclusion

OBL possesses an inhibitory effect on platelet aggregation induced by ADP and thrombin, that is dose-dependent and results in an anti-thrombotic effect in vivo which develops progressively over 7 days and disappears over 3-7 days. The active ingredient now needs to be characterized.     

P-selectin ligation induces platelet activation and enhances microaggregate and thrombus formation

Introduction

Platelet P-selectin is a thrombo-inflammatory molecule involved in platelet activation and aggregation. This may occur via the adhesive function of P-selectin and its potential capacity to trigger intracellular signaling. However, its impact on platelet function remains elusive. This study was therefore designed to investigate the relationship between the signaling potential of platelet P-selectin and its function in platelet physiology.

Methods and Results

Human and mouse platelets were freshly isolated from whole blood. Platelet activation was assessed using flow cytometry and western blot analysis, while platelet physiological responses were evaluated through aggregation, microaggregate formation and in a thrombosis model in wild-type and P-selectin-deficient (CD62P^−/−) mice. Interaction of P-selectin with its high-affinity ligand, a recombinant soluble form of P-Selectin Glycoprotein Ligand-1 (rPSGL-1), enhances platelet activation, adhesion and microaggregate formation. This augmented platelet microaggregates requires an intact cytoskeleton, but occurs independently of platelet α_IIbβ₃. Thrombus formation and microaggregate were both enhanced by rPSGL-1 in wild-type, but not in CD62P^−/− mice. In addition, CD62P^−/− mice exhibited thrombosis abnormalities without an α_IIbβ₃ activation defect.

Conclusions

This study demonstrates that the role of platelet P-selectin is not solely adhesive; its binding to PSGL-1 induces platelet activation that enhances platelet aggregation and thrombus formation. Therefore, targeting platelet P-selectin or its ligand PSGL-1 could provide a potential therapeutic approach in the management of thrombotic disorders.     

Shear-induced global thrombosis test of native blood: Pivotal role of ADP allows monitoring of P2Y12 antagonist therapy

Background

It is claimed that in shear-induced platelet function tests, shear-stress is the sole agonist causing platelet activation and resultant thrombosis. However, the fact that red blood cells (RBC) are essential to achieve platelet aggregation in these tests supports recent evidence that ADP makes an important contribution to shear-induced platelet reaction.

Aim

To establish the role of ADP in shear-induced thrombosis, and investigate whether a shear-induced thrombosis test can assess ADP-receptor (P2Y12) antagonist medication.

Methods

Blood from healthy volunteers was tested using the Global Thrombosis Test (GTT), before and after clopidogrel. To investigate the importance of contact of blood with plastic, the reactive part of the tube was primed with saline. We also investigated the effect of priming the tube with water, to cause localised haemolysis and ADP release.

Results

Saline-priming prolonged occlusion times (OT) by 25% (p < 0.01) confirming ADP release from platelets and RBC as a result of contact. Water-priming shortened OT, accelerating the thrombotic reaction (accelerated GTT; aGTT) (OT 379 vs. 177s, p < 0.01). Clopidogrel increased OT (379 vs. 477s, p < 0.01), preventing the shortening of aGTT-OT (177 vs. 362s, pre- and post-clopidogrel; p < 0.01).

Conclusion

In addition to thrombin formation, ADP released from platelets and RBC in native blood subjected to high shear-stress makes an important contribution to the resultant thrombotic occlusion. The described aGTT sensitively detected the effect of clopidogrel and thus seems suitable for monitoring and individualizing ADP-receptor antagonist therapy. Parallel measurement of GTT and aGTT would allow assessment of both global thrombotic status and response to P2Y12 antagonist therapy.     

Anopheline anti-platelet protein from a malaria vector mosquito has anti-thrombotic effects in vivo without compromising hemostasis

Introduction

The saliva of blood-feeding animals (e.g., mosquitoes, ticks, bats) has pharmacological activities that facilitate efficient blood-sucking. We previously identified a unique anti-platelet protein, anopheline anti-platelet protein (AAPP), from the salivary gland of female Anopheles stephensi (human malaria vector mosquito). AAPP specifically blocks platelet adhesion to collagen by binding directly to collagen and subsequently aggregating platelets. To examine the potential of AAPP as a therapeutic agent, we investigated the in vivo anti-thrombotic effects of AAPP.

Materials and Methods

Effects of AAPP on whole blood/platelet aggregation in mice were examined. AAPP was also challenged in an established model of pulmonary thromboembolism in mice. We simultaneously investigated the side-effects of the protein (prolongation of bleeding time and coagulation time). Aspirin was used as a positive control for comparison of anti-thrombotic effects.

Results and Conclusions

AAPP inhibited whole blood aggregation induced by collagen at 10 mg/kg body weight. AAPP prevented pulmonary death at a lower dose (3 mg/kg) without prolongation of bleeding time compared with aspirin (100 mg/kg) that compromised hemostasis. AAPP and aspirin did not affect coagulation time. These results indicate that AAPP has great potential as a new anti-platelet agent with a better risk/benefit ratio than that seen with aspirin (the most widely used anti-platelet agent).     

Antiplatelet effects of antidepressant treatment: A randomized comparison between escitalopram and nortriptyline

Introduction

Depressive disorders have been identified as independent risk factors for coronary heart disease. The present study (i) compared platelet function of depressed patients with that of healthy controls, (ii) analysed possible aggregability changes during 3 months of treatment with antidepressants, and (iii) sought to assess different effects of escitalopram and nortriptyline on platelet aggregation.

Methods

Blood samples of 91 major depressed patients and 91 healthy controls were analysed with whole blood aggregometry in a case-control setting. Depressed patients were randomized to two groups treated either with escitalopram (n = 47) or nortriptyline (n = 44). Platelet aggregation was studied on days 0, 1, 3, 7, 14, 21, 84 of continuing medication and was determined in response to adenosine diphosphate (ADP) and collagen.

Results

Platelet aggregation induced by ADP was increased among depressive patients compared with that of healthy controls (26%, p = 0.006). With antidepressant treatment, changes in platelet aggregation remained comparable in both groups at early time points (d1 to 21). In contrast, at day 84, patients with antidepressive response revealed significant differences in both medication groups: Patients receiving escitalopram showed a 23% decrease of ADP induced aggregation (p = 0.03) and a 15% decrease of collagen induced aggregation (p = 0.03). With nortriptyline the increase in impedance was reduced by 29% after ADP induction (p = 0.046).

Conclusion

Depressed patients have higher ex vivo platelet aggregation that may contribute to increased cardiovascular morbidity. After three months of antidepressant treatment with either escitalopram or nortriptyline, platelet aggregation was significantly reduced in antidepressant responders, irrespective of the antidepressant medication type.     

I(4), a new synthetic sulfonylurea compound, inhibits the action of TXA(2)in vivo and in vitro on platelets and aorta vascular smooth muscle

Introduction

1-[4-[2-(4-Bromobenzene-sulfonamino)ethyl]phenylsulfonyl]-3-(trans-4-methylcy-clohexyl)urea(I₄, CAS865483-06-3); a totally synthetic new sulfonylurea compound, combining the hypoglycemic active structure of Glimepiride (CAS 93479-97-1) and anti-TXA₂ receptor (TP) active structure of BM-531(CAS 284464-46-6), was designed and synthesized. Its effects on TXA₂ synthesis and TP have not been reported yet.

Aim

To study the inhibitory effects of I₄ and its mechanisms of action on TXA₂ and TP.

Methods

Platelet aggregation studies were performed on human platelet, rat whole blood platelet and rabbit platelet, platelets aggregation was induced by TP agonist U-46619(stable analog of TXA₂, CAS 56985-40-1). Plasma TXB₂ and 6-keto-prostaglandin F_1α (6-keto-PGF_1α) were used as markers to determine the effect of I₄ on thromboxane synthesis. Fluo-3-AM was used to measure the cytosolic Ca^2 + concentrations ([Ca^2 +]_i) in rabbit platelet. Aorta rings with and without endothelium were prepared and aorta contraction was induced by U-46619. A model of type 2 diabetes mellitus was established by intraperitoneal injection of low dose of streptozocin to rats fed a high-calorie diet. Both normal rats and type 2 diabetic rats were used to assay the inhibitory effect of I₄ on platelet aggregation induced by U-46619.

Results

I₄ exhibited a higher inhibitory potency than Glimepiride on U-46619 induced platelet aggregation in vitro and in vivo. I₄ increased the ratio of plasma PGI₂/TXA₂ and decreased [Ca^2 +]_i release from platelet internal stores. In addition, I₄ presented a vasorelaxant activity on isolated rat aorta contraction induced by U-46619.Oral administration of I₄ (1 ~ 10 mg/kg) markedly and dose-dependently inhibited platelet aggregation in both normal rats and type 2 diabetic rats.

Conclusion

I₄ significantly inhibited platelet aggregation induced by U-46619 in vitro and in vivo, and rat aorta contraction. It probably acts by partly blocking TXA₂ action, decreasing the platelet intracellular Ca^2 +, and increasing the PGI₂/TXA₂ ratio.     

Dependence of platelet function on underlying liver disease in orthotopic liver transplantation

Objective

The purpose of the present study was to explore the platelet function during the perioperative period of orthotopic liver transplantation (OLT) due to the underlying liver disease.

Methods

The blood coagulation parameters, platelet surface markers and the determination of platelet aggregation were analyzed in 34 patients who underwent OLT. Blood samples were drawn preoperatively, anhepatic, 10 min and 1 hour after reperfusion, 1 day, 3 and 7 days postoperatively. Conventional coagulation screens, thrombopoietin (TPO) serum levels, P-selectin, GPIIb/IIIa and GPIb binding sites on the surface of platelets as evaluated by flow cytometry and platelet aggregation response were measured.

Results

Coagulation factors, maximum aggregation and rate of aggregation were significantly different before transplantation due to the underlying liver disease. Further we found a markedly depressed GPIIb/IIIa and P-selectin expression and a reduced rate of aggregation in all patients throughout the study. In contrast maximum aggregation of platelets was restored on the third day after reperfusion without intergroup differences and almost comparable to healthy controls. An inverse correlation was found between peripheral platelet count pre-transplantation and peak TPO concentrations one weak post-transplantation.

Conclusions

In the entire process of OLT, coagulation factors, maximum aggregation and rate of platelet aggregation depend on the surgical phases during transplantation and on the underlying liver disease. The data obtained in this study might contribute to a better understanding of the pathophysiology and assessment of bleeding risk in OLT.