Elucidation of flow-mediated tumour cell-induced platelet aggregation using an ultrasound standing wave trap

BACKGROUND AND PURPOSE

Tumour cells activate and aggregate platelets [tumour cell-induced platelet aggregation (TCIPA)] and this process plays an important role in the successful metastasis of cancer cells. To date, most studies on TCIPA have been conducted under no-flow conditions. In this study, we have investigated TCIPA in real time under flow conditions, using an ultrasound standing wave trap that allows formation and levitation of cancer cell clusters in suspension, thus mimicking the conditions generated by flowing blood.

EXPERIMENTAL APPROACH

Using 59M adenocarcinoma and HT1080 fibrosarcoma cells and human platelets, cancer cell cluster–platelet aggregates were imaged in real time using epi-fluorescence microscopy (F-actin) and investigated in detail using confocal microscopy (matrix metalloproteinase-2-GPIIb/IIIa co-localization) and scanning electron and helium-ion microscopy (<1 nm resolution). The release of gelatinases from aggregates was studied using zymography.

KEY RESULTS

We found that platelet activation and aggregation takes place on the surface of cancer cells (TCIPA), leading to time-dependent disruption of cancer cell clusters. Pharmacological modulation of TCIPA revealed that EDTA, prostacyclin, o-phenanthroline and apyrase significantly down-regulated TCIPA and, in turn, delayed cell cluster disruption, However, EGTA and aspirin were ineffective. Pharmacological inhibition of TCIPA correlated with the down-regulation of platelet activation as shown by flow-cytometry assay of platelet P-selectin.

CONCLUSION AND IMPLICATIONS

Our results show for the first time, that during TCIPA, platelet activation disrupts cancer cell clusters and this can contribute to metastasis. Thus, selective targeting of platelet aggregate–cancer cell clusters may be an important strategy to control metastasis.     

Increased platelet expression of glycoprotein IIIa following aspirin treatment in aspirin-resistant but not aspirin-sensitive subjects

Aims

Aspirin is widely used as an anti-platelet agent for cardiovascular prophylaxis. Despite aspirin treatment, many patients experience recurrent thrombotic events, and aspirin resistance may contribute to this. We examined the prevalence of aspirin resistance in a healthy population, and investigated whether the platelet proteome differed in aspirin-resistant subjects.

Methods

Ninety-three healthy subjects received aspirin 300 mg daily for 28 days. Before and at the end of treatment, urine was taken to determine 11-dehydrothromboxane B₂, and blood was taken to measure arachidonic acid (AA)-induced aggregation of platelet-rich plasma and to interrogate the platelet proteome by mass spectrometric analysis with further confirmation of findings using Western blotting.

Results

In two of the 93 subjects, neither AA-induced aggregation nor urinary 11-dehydrothromboxane B₂ was effectively suppressed by aspirin, despite measurable plasma salicylate concentrations, suggesting the presence of true aspirin resistance. Despite no detectable differences in the platelet proteome at baseline, following aspirin a marked increase was seen in platelet glycoprotein IIIa expression in the aspirin-resistant but not aspirin-sensitive subjects. An increase in platelet glycoprotein IIIa expression with aspirin resistance was confirmed in a separate cohort of 17 patients with stable coronary artery disease on long term aspirin treatment, four of whom exhibited aspirin resistance.

Conclusions

In a healthy population, true aspirin resistance is uncommon but exists. Resistance is associated with an increase in platelet glycoprotein IIIa expression in response to aspirin. These data shed new light on the mechanism of aspirin resistance, and provide the potential to identify aspirin-resistant subjects using a novel biomarker.     

Mechanisms of aggregation inhibition by aspirin and nitrate-aspirin prodrugs in human platelets

Objectives Aspirin is the mainstay of anti‐platelet therapy in the secondary prevention of cardiovascular disease. However, problems with aspirin safety and resistance demand clinical strategies based on multiple pharmacological approaches. Prodrugs of aspirin may offer beneficial effects in terms of gastro‐intestinal safety and multiple pharmacological approaches. However, the pharmacological profile of aspirin prodrugs in human platelets has not been completed yet. We aimed to compare the effects of aspirin and prodrugs of aspirin ( 1 – 5 ) on human platelet aggregation stimulated by ADP and collagen and associated receptor expression (GPIIb/IIIa and P‐selectin) in platelet‐rich plasma (PRP) and washed platelets (WP). Methods As aspirin is released from prodrugs following esterase hydrolysis we studied the expression and activity of butyrylcholineterase (BuChE) and carboxyesterase (CE) in plasma and platelets. The mechanism of prodrug‐induced platelet aggregation inhibition was explored by studying the effects of plasma and purified human BuChE on aggregation. Finally, the relative contribution of nitric oxide (NO) bioactivity to nitrate‐containing prodrugs of aspirin‐induced inhibition of aggregation was determined using 1H‐[1,2,4]oxadiazolo[4,3‐a]quinoxalin‐1‐one (ODQ,) a selective inhibitor of the soluble guanylyl cyclase. Key findings ST0702, 2 , a nicotinic acid‐aspirin codrug was equipotent with aspirin with respect to inhibition of collagen‐induced platelet aggregation. Compound 4 , a NO releasing aspirin was the most potent inhibitor of ADP‐induced platelet aggregation, an effect partially reversed by ODQ. The platelet inhibitory effects of aspirin prodrugs were time‐dependent as the maximal inhibitory effects against collagen‐induced aggregation were achieved by aspirin at 2 min, 1 at 5 min and ST0702 at 15 min. The aspirin prodrugs were significantly less potent in WP than in PRP and the reverse was true of aspirin. In the presence of complete BuChE inhibition in PRP, there was almost complete loss of aspirin prodrug, but not aspirin anti‐aggregatory activity. Interestingly, CE activity was observed in WP and platelet lysate with pNPA substrate. Accordingly, 1 and ST0702 retained 50% and 100% anti‐aggregatory activity at maximal concentrations in WP, which was attenuated in the presence of esterase inhibitor phenylmethylsulphonyl fluoride. Conclusions The inhibitory effect of aspirin prodrugs in PRP is due to prodrug activation by BuChE. In contrast, the platelet‐inhibitory effects of aspirin prodrugs in WP may be mediated through the activity of platelet CE. Compound 4 , a NO‐containing aspirin prodrug, may exert dual inhibitory effects in platelets. Thus, aspirin prodrugs effectively inhibit human platelet aggregation and as such may be an alternative to conventional aspirin.     

Pharmacogenetics of aspirin resistance: a comprehensive systematic review

WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT

• A genetic basis for aspirin resistance has been postulated to exist.
• The individual studies published have been too small to allow reliable conclusions to be drawn.
• In order to clarify what, if any, genetic basis exists for aspirin resistance, we have undertaken, to our knowledge, the largest and most comprehensive systematic review conducted to-date in this field.

WHAT THIS STUDY ADDS

• There is a significant association between the PlA1/A2 molecular variant and aspirin resistance in healthy subjects, with the effect diminishing in the presence of cardiovascular disease.
• However further studies are needed to confirm this.
• We argue that investigators now need to agree on a standard technique to measure and define aspirin resistance.

AIMS

The aim was to perform a systematic review of all candidate gene association studies in aspirin resistance.

METHODS

Electronic databases were searched up until 1 December 2007 for all studies investigating any candidate gene for aspirin resistance in humans. Aspirin resistance was required to have been measured by a standardized laboratory technique to be included in the analysis.

RESULTS

Within 31 studies, 50 polymorphisms in 11 genes were investigated in 2834 subjects. The PlA1/A2 polymorphism in the GPIIIa platelet receptor was the most frequently investigated, with 19 studies in 1389 subjects. The PlA1/A2 variant was significantly associated with aspirin resistance when measured in healthy subjects [odds ratio (OR) 2.36, 95% confidence interval (CI) 1.24, 4.49; P = 0.009]. Combining genetic data from all studies (comprising both healthy subjects and those with cardiovascular disease) reduced the observed effect size (OR 1.14, 95% CI 0.84, 1.54; P = 0.40). Moreover, the observed effect of PlA1/A2 genotype varied depending on the methodology used for determining aspirin sensitivity/resistance. No significant association was found with aspirin resistance in four other investigated polymorphisms in the COX-1, GPla, P2Y1 or P2Y12 genes.

CONCLUSIONS

Our data support a genetic association between the PlA1/A2 molecular variant and aspirin resistance in healthy subjects, with the effect diminishing in the presence of cardiovascular disease. The laboratory methodology used influences the detection of aspirin resistance. However, as heterogeneity was significant and our results are based on a limited number of studies, further studies are required to confirm our findings.     

Platelet-mediated angiogenesis is independent of VEGF and fully inhibited by aspirin

BACKGROUND AND PURPOSE

Platelets are major players in every step of vessel development through the local delivery of angiogenesis-modulating factors, including the pro-angiogenic protein VEGF and the anti-angiogenic endostatin. Although thrombin is a potent agonist and is highly elevated in angiogenesis-related diseases, studies regarding its action on the release of platelet angiogenic factors are scarce and controversial. Herein, we have investigated the role of thrombin not only in VEGF and endostatin release but also in net platelet angiogenic activity.

EXPERIMENTAL APPROACH

Human platelets were stimulated with thrombin in the presence of the various inhibitors of the signalling pathways involved in platelet activation. Supernatants/releasates were used to determine the levels of angiogenic molecules and to induce angiogenic responses.

KEY RESULTS

We found that thrombin induced the secretion of both VEGF and endostatin; however, the overall effect of the releasates was pro-angiogenic as they promoted tubule-like formation and increased the proliferation of endothelial cells. Both responses were only slightly suppressed in the presence of a VEGF receptor-neutralizing antibody. Pharmacological studies revealed that while inhibitors of PKC, p38, ERK1/2, Src kinases or PI3K/Akt exerted only partial inhibitory effects, aspirin fully blocked the pro-angiogenic activity of the releasate.

CONCLUSIONS AND IMPLICATIONS

In contrast to current belief, platelet pro-angiogenic responses are independent of VEGF and appear to be the result of the combined action of several molecules. Moreover, our data reinforce the notion that aspirin is a good candidate for a therapeutic agent to treat angiogenesis-related diseases.     

P2Y12 polymorphisms and antiplatelet effects of aspirin in patients with coronary artery disease

Aims

Recently, two genetic polymorphisms of the platelet ADP receptor P2Y₁₂ (haplotypes H2 and 34T) have been implicated in increased platelet aggregation and atherothrombotic risk. It was suggested that these polymorphisms contribute to a diminished response to antiplatelet drugs. Therefore, we investigated the effects of these polymorphisms on platelet aggregation in aspirin-treated patients with coronary artery disease (CAD).

Methods

Platelet aggregation was studied in platelet-rich plasma from 124 patients with CAD treated with 100 mg aspirin day⁻¹. P2Y₁₂ ADP receptor polymorphisms were determined by PCR-RFLP. The 52G > T polymorphism was used as tag-SNP for the H2 haplotype. Aggregation was induced by 1 mg l⁻¹ collagen. In a subgroup (n = 72), a concentration-response curve to collagen (0.5–10 mg l⁻¹), aggregation at 2 μmol l⁻¹ ADP and 1 mmol l⁻¹ arachidonic acid were determined.

Results

Whereas arachidonic acid-induced aggregation was inhibited in all patients, collagen and ADP-induced aggregation were highly variable. However, aggregation did not differ significantly between carriers and noncarriers of the 52T-allele (1 mg l⁻¹ collagen: 32.7% (21.9–38.6%) vs. 32.5% (21.2–41.6%); P = 0.77; ADP: 33.1% (29.9–40.9%) vs. 39.1% (31.5–49.7%); P = 0.34), respectively. EC₅₀ values were 1.26 mg l⁻¹ (0.79–2.02) and 1.54 mg l⁻¹ (0.98–2.4) collagen in noncarriers and carriers of the H2 haplotype, respectively (P = 0.56). Moreover, the 34°C > T polymorphism did not significantly affect any of the aggregatory responses.

Conclusions

Low-dose aspirin inhibits platelet aggregation to the same extent in patients carrying or not carrying the P2Y₁₂ H2 haplotype and/or the 34T allele. Our data do not support the hypothesis that these polymorphisms contribute to an attenuated antiplatelet effect of aspirin.

What is already known about this subject

• Genetic polymorphisms of the P2Y₁₂ ADP receptor on platelets have been shown to contribute to variability in platelet aggregation in healthy humans.
• P2Y₁₂ ADP receptor polymorphisms are more frequently present in patients with vascular disease than in healthy people.
• The majority of patients with vascular disease receive acetylsalicylic acid as an anti-aggregatory agent, which has also been shown to induce a variable response; however, the role of P2Y₁₂ ADP receptor polymorphisms in the platelet response to acetylsalicylic acid in patients with vascular disease has not yet been studied.

What this study adds

• The present data show that the platelet response to acetylsalicylic acid is independent of the presence or absence of P2Y₁₂ ADP receptor polymorphisms in patients with stable coronary artery disease who have had their first myocardial infarction.
• This is important, as studies in healthy humans had suggested that carriers of P2Y₁₂ ADP receptor polymorphisms may be at increased risk of experiencing cardiovascular events.
• However, the observed variability of the platelet response to the cyclooxygenase inhibitor acetylsalicylic acid (in our study) and to the P2Y₁₂ ADP receptor blocker clopidogrel (in a study by Angiolillo et al.[18]) in patients with coronary artery disease is clearly not determined by common P2Y₁₂ ADP receptor polymorphisms.

     

The interaction of ibuprofen and diclofenac with aspirin in healthy volunteers

Background and purpose:

Aspirin reduces the risk of myocardial infarction and stroke by inhibiting thromboxane production in platelets. This inhibition can be competitively antagonized by some non-steroidal anti-inflammatory drugs (NSAIDs).

Experimental approach:

By measuring thromboxane B₂ production in healthy volunteers, we investigated whether ibuprofen (800 mg three times daily for 7 days) or diclofenac (50 mg three times daily for 7 days) taken concurrently with aspirin 80 mg (once daily for 7 days) influenced the inhibitory effect of aspirin. The effects were compared with aspirin 30 mg (once daily for 7 days), which is the lowest dose of aspirin with a proven thromboprophylactic effect.

Key results:

The median percentage inhibition of thromboxane B₂ levels by 30 mg or 80 mg aspirin was 90.3% (range 83.1–96.0%) and 98.0% (range 96.8–99.2%) respectively. The inhibition by concurrent administration of slow release diclofenac and 80 mg aspirin was 98.1% (range 97.2–98.9%), indicating no interference between aspirin and diclofenac. The inhibition decreased significantly by concurrent administration of immediate release ibuprofen and 80 mg aspirin (86.6%; range 77.6–95.1%) to a level less than 30 mg aspirin.

Conclusions and implications:

As alternatives are easily available, NSAIDs such as diclofenac should be preferred to ibuprofen for combined use with aspirin.     

Effects of P2Y(1) receptor antagonism on the reactivity of platelets from patients with stable coronary artery disease using aspirin and clopidogrel

BACKGROUND AND PURPOSE

P2Y₁ is a purine receptor that triggers platelet aggregation. Its inhibition was studied in patients with stable coronary artery disease (CAD) receiving standard anti-platelet therapy.

EXPERIMENTAL APPROACH

Blood samples from 10 patients on aspirin therapy (ASA, 80 mg·day⁻¹) were withdrawn before and 24 h after the administration of 450 mg clopidogrel (ASA/C) and were anti-coagulated with citrate or hirudin/PPACK in the presence or absence of the P2Y₁ inhibitor MRS2179 (M, 100 µM). Platelet responses to ADP (2.5 µM) and TRAP (2.5 µM), and collagen-induced thrombosis under flow conditions were analysed.

KEY RESULTS

Compared with ASA, ASA + M strongly inhibited ADP-induced peak platelet aggregation (88%), late aggregation (84%), P-selectin expression (85%) and α_IIbβ₃ activation (62%) (28%, 65%, 70% and 51% inhibition, respectively, for ASA/C vs. ASA). ASA + M also inhibited platelet/monocyte and platelet/neutrophil conjugate formation by 69% and 71% (57% and 59% for ASA/C vs. ASA). In TRAP-activated blood, ASA + M unexpectedly inhibited α_IIbb₃ activation by 30%. In blood perfused in collagen-coated glass capillaries (shear rate of 1500 s⁻¹), ASA/C prevented thrombus growth beyond 5 min in relation to thrombus fragments embolization. ASA + M with or without clopidogrel completely prevented thrombus formation. Finally, ex vivo addition of MRS2179 and ASA to the blood of healthy donors markedly blocked thrombus formation on collagen in flow conditions, in contrast to ASA plus the P2Y₁₂ inhibitor 2-MeSAMP.

CONCLUSIONS AND IMPLICATIONS

Through particularly efficient complementarities with ASA to inhibit platelet activation and thrombus formation, the inhibition of P2Y₁ in the blood of patients with CAD appears to play a more important role than previously anticipated.     

Adherence to statin or aspirin or both in patients with established cardiovascular disease: exploring healthy behaviour vs. drug effects and 10-year follow-up of outcome

Aims

To characterize adherence in patients with established cardiovascular disease taking statins and aspirin and to estimate the effects of adherence due to health behaviour, a lack of beneficial drug effect, or both on recurrence of cardiovascular disease or all-cause mortality over 10 years.

Methods

A population-based cohort study using a record-linkage database in Tayside, Scotland. Subjects with cardiovascular disease (n = 7657; 4185 aspirin-alone cohort, 671 statin-alone cohort and 2801 combination use cohort) were studied between 1993 and 2003. The effects of adherence on recurrence of cardiovascular disease or mortality were assessed using Poisson regression model.

Results

In subjects taking both aspirin and statins, those adherent to statins but not aspirin had a lower risk of recurrence [adjusted risk ratio (RR) 0.64; 95% confidence interval 0.49, 0.82], but those adherent to aspirin but not statins has no such effect (adjusted RR 0.91; 0.72, 1.15), suggesting that adherence behaviour alone was not responsible for the beneficial effect. Within the group adherent to aspirin, ≥80% adherence to statins was associated with reduced recurrence compared with those poorly adherent (adjusted RR 0.76; 0.62, 0.94), but no such effect of aspirin was seen in those adherent to statins. Similar results were found for all-cause mortality.

Conclusions

Poor health behaviour is not a sufficient explanation of adverse outcome in poorly adherent patients. Adverse outcome is more likely to be driven by foregone drug benefits.

WHAT IS ALREADY KNOWN ABOUT THIS SUBJECT

• Aspirin and statins are widely-used drugs in patients with cardiovascular disease.
• There is less information on healthy behaviour vs. drug effects.

WHAT THIS STUDY ADDS

• Long-term adherence to aspirin and statin treatments in patients with established cardiovascular disease has been investigated.
• Poor health behaviour is not a sufficient explanation of adverse outcome in poorly adherent patients.

     

Daily administration of the TP receptor antagonist terutroban improved endothelial function in high-cardiovascular-risk patients with atherosclerosis

AIMS

The specific TP receptor antagonist terutroban improves endothelial function after a single dose in patients with coronary artery disease. Our aim was to evaluate the effects and dose dependency of repeated-dose terutroban on endothelial function and platelet aggregation in high-cardiovascular-risk patients with carotid atherosclerosis.

METHODS

We randomly allocated 48 patients taking 300 mg aspirin per day to placebo or to one of three terutroban dosages (2.5, 5 or 10 mg) for 15 days in a double-blind study. Flow-mediated vasodilatation was evaluated before and 2 h after the first oral dose on day 0 and 2 h after the last oral dose on day 14.

RESULTS

On day 0 and day 14, all three terutroban dosages improved flow-mediated vasodilatation and abolished platelet aggregation induced by the TP receptor agonist U46619, without changing the aggregation response to ADP or collagen.

CONCLUSION

Terutroban, by chronically improving endothelium-dependent vasodilatation and inhibiting platelet aggregation, may prove useful for preventing cardiovascular events in high-risk patients.     

Aspirin-triggered lipoxin in patients treated with aspirin and selective vs. nonselective COX-2 inhibitors

AIMS

Cyclooxygenase (COX)-2 inhibition has been reported to suppress the biosynthesis of the gastroprotective lipoxygenase metabolite 15(R)-epi-lipoxin A₄, also termed ‘aspirin-triggered lipoxin’ (ATL). We tested the hypothesis that the co-administration of aspirin with either the selective COX-2 inhibitor celecoxib or the nonselective COX inhibitor ibuprofen reduces ATL biosynthesis.

METHODS

We measured the urinary excretion of ATL in 24 patients with both ischaemic heart disease and osteoarthritis, chronically treated with aspirin and co-administered celecoxib 200 mg b.i.d., ibuprofen 600 mg t.i.d., or placebo for 7 days.

RESULTS

Baseline ATL was comparable in the three groups. On days 1 and 7, 4 h after co-administration of celecoxib or ibuprofen, ATL levels did not show significant variations (day 1: 0.24 ± 0.33, 0.26 ± 0.21 and 0.37 ± 0.22 ng mg⁻¹ creatinine, respectively; day 7: 0.21 ± 0.13, 0.35 ± 0.15 and 0.23 ± 0.18 ng mg⁻¹ creatinine, respectively).

CONCLUSIONS

Neither selective nor nonselective COX-2 inhibition appreciably interferes with ATL biosynthesis, suggesting that this mediator is not involved in exacerbating gastrotoxicity by the association of aspirin with COX-2 inhibitors.     

Antiplatelet and antithrombotic effect of F 16618, a new thrombin proteinase-activated receptor-1 (PAR1) antagonist

BACKGROUND AND PURPOSE

New antithrombotic agents with the potential to prevent atherothrombotic complications are being developed to target receptors on platelets and other cells involved in plaque growth. The aim of this study was to investigate the antiplatelet effects of F 16618, a new non-peptidic PAR1 (thrombin receptor) antagonist.

EXPERIMENTAL APPROACH

We investigated the inhibitory effect of F 16618 on human platelet aggregation ex vivo, in whole blood and washed platelets, by using a multiple-electrode platelet aggregometer based on impedance and an optical aggregometer, respectively. Its effects on whole-blood haemostasis (clot parameters) were analysed with the ROTEM thromboelastometry device and the platelet function analyser PFA-100. A guinea-pig model of arterial thrombosis was used to investigate its effects on thrombus formation in vivo.

KEY RESULTS

F 16618 inhibited PAR1 agonist peptide (SFLLR-peptide)-induced washed platelet aggregation ex vivo. This effect was concentration-dependent and exhibited a competitive inhibition profile. Washed platelet aggregation, as well as P-selectin expression induced by thrombin, were significantly inhibited by 10 µM F 16618. In whole-blood experiments, 20 µM F 16618 inhibited SFLLR-induced platelet aggregation by 49%. In contrast, it had no effect on whole-blood haemostasis. In the guinea-pig model of carotid thrombosis, 0.32 mg·kg⁻¹ F 16618 doubled the occlusion time.

CONCLUSIONS AND IMPLICATIONS

F 16618 was shown to have strong antithrombotic activity in vivo and moderate antiplatelet effects ex vivo. As these effects were not associated with major effects on physiological haemostasis, this molecule is a good antiplatelet drug candidate for use either alone or in combination with current treatments.     

2-arachidonyl glycerol activates platelets via conversion to arachidonic acid and not by direct activation of cannabinoid receptors

AIMS

Cannabinoid receptor-1 (CB₁) antagonists suppress appetite and induce weight loss. Direct antagonism of CB₁ receptors on platelets might be an additional benefit for CB₁ antagonists, but the role of CB₁ receptors in platelets is controversial. We tested the hypothesis that the endocannabinoid, 2-arachidonyl glycerol (2-AG), induces platelet aggregation by a COX-mediated mechanism rather than through CB₁ receptor activation, in blood obtained from healthy volunteers and patients with coronary artery disease receiving low dose aspirin.

METHODS

Aggregatory responses to the cannabinoids 2-AG and Δ⁹-THC were examined in blood sampled from healthy volunteers (n= 8) and patients (n= 12) with coronary artery disease receiving aspirin using whole blood aggregometry. The effects of CB₁ (AM251) and CB₂ (AM630) antagonists, as well as fatty acid amide hydrolase (FAAH) and monoacyl glycerol lipase (MAGL) inhibitors and aspirin on 2-AG-induced aggregation were also assessed.

RESULTS

AM251 (100 nm–30 µm) had no effect on platelet aggregation induced by either ADP (P= 0.90) or thrombin (P= 0.86). 2-AG, but not Δ⁹-THC, induced aggregation. 2-AG-induced aggregation was unaffected by AM251 and AM630 but was abolished by aspirin (P < 0.001) and by the MAGL inhibitor, URB602 (P < 0.001). Moreover, the aggregatory response to 2-AG was depressed (by >75%, P < 0.001) in blood from patients with coronary artery disease receiving aspirin compared with that from healthy volunteers.

CONCLUSIONS

2-AG-mediated activation of platelets is via metabolism to arachidonic acid by MAGL, and not through direct action on CB₁ or CB₂ receptors, at least in the acute phase.     

Use of Aspirin in normalization of recombinant human erythropoietin-mediated hyper-reactivity of platelets in rats

Objectives:

The cytokine erythropoietin is the primary stimulator of erythropoiesis and recombinant human erythropoietin (rHuEPO), which is widely used in the treatment of anemia associated with advanced chronic kidney disease (CKD). Adverse cardiovascular outcomes have been observed during clinical trials of anemia correction with rHuEPO in CKD patients. We investigated the effects of short-term, high-dose treatment with rHuEPO on platelet reactivity and effects of aspirin on platelet reactivity in healthy rats.

Materials and Methods:

Animals received three daily dose of rHuEPO (25 μg/kg s.c.). Platelets were isolated after 48 h of last dose of rHuEPO to study the arachidonic acid-induced platelet aggregation. Aspirin (75 mg/kg p.o.) was given to animals just before 1 h of isolation of platelets.

Results:

In rats, treatment with rHuEPO increased platelet reactivity and platelet count. The increased platelet reactivity was paralleled by decreased time-to-occlusion (TTO) in arterial thrombosis model, and decreased bleeding time after tail transection in rats. Treatment with rHuEPO followed by single dose of aspirin showed significant reduction in TTO and bleeding time as compared with aspirin-treated group.

Conclusions:

These findings suggest that rHuEPO increases platelet reactivity and aspirin normalizes the hyper-reactive platelet and may reduce the cardiovascular events associated with rHuEPO in CKD patients.KEY WORDS: Aspirin, chronic kidney disease, platelet, rat, recombinant human erythropoietin     

Differential effects of quercetin,apigenin and genistein on signalling pathways of protease-activated receptors PAR1 and PAR4 in platelets

Background and purpose:

The modulation by flavonoids of platelet responses induced by thrombin has been little investigated, and the antiplatelet activity, as well as possible inhibitory mechanisms of these compounds on thrombin signalling, has not yet been elucidated. We explored whether flavonoids affect platelet signalling pathways triggered by thrombin and by the selective activation of its protease-activated receptors (PARs) 1 and 4, and analysed the antagonism of these polyphenols at thrombin receptors.

Experimental approach:

We investigated the effect of a range of polyphenolic compounds on platelet aggregation, 5-HT secretion, intracellular calcium mobilization, protein kinase activity and tyrosine phosphorylation, triggered by thrombin and PAR agonist peptides (PAR-APs). The ability of these flavonoids to bind to thrombin receptors was investigated by competitive radioligand binding assays using ¹²⁵I-thrombin.

Key results:

Quercetin, apigenin and genistein impaired platelet aggregation, as well as 5-HT release and calcium mobilization, induced by thrombin and PAR-APs. Quercetin and apigenin were inhibitors of protein kinases, but genistein exhibited a minimal ability to suppress platelet phosphorylation. Binding assays did not establish any kind of interaction between thrombin receptors and any of the flavonoids tested.

Conclusions and implications:

Quercetin, apigenin and genistein did not inhibit thrombin responses by interacting with thrombin receptors, but by interfering with intracellular signalling. While inhibition by genistein may be a consequence of affecting calcium mobilization, subsequent platelet secretion and aggregation, for quercetin and apigenin, inhibition of kinase activation may also be involved in the impairment of platelet responses.     

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.