Jane May

Cocoa flavanols and platelet and leukocyte function: recent in vitro and ex vivo studies in healthy adults.

There is growing interest in possible beneficial effects of specific dietary components on cardiovascular health. Platelets and leukocytes contribute to arterial thrombosis and to inflammatory processes. Previous studies performed in vitro have demonstrated inhibition of platelet function by (−)-epicatechin and (+)-catechin, flavan-3-ols (flavanols) that are present in several foods including some cocoas. Also, some modest inhibition of platelet function has been observed ex vivo after the consumption of flavanol-containing cocoa products by healthy adults. So far there are no reports of effects of cocoa flavanols on leukocytes. This paper summarizes 2 recent investigations. The first was a study of the effects of cocoa flavanols on platelet and leukocyte function in vitro. The second was a study of the effects of consumption of a flavanol-rich cocoa beverage by healthy adults on platelet and leukocyte function ex vivo. Measurements were made of platelet aggregation, platelet-monocyte conjugate formation (P/M), platelet-neutrophil conjugate formation (P/N), platelet activation (CD62P on monocytes and neutrophils), and leukocyte activation (CD11b on monocytes and neutrophils) in response to collagen and/or arachidonic acid. In the in vitro study several cocoa flavanols and their metabolites were shown to inhibit platelet aggregation, P/M, P/N, and platelet activation. Their effects were similar to those of aspirin and the effects of a cocoa flavanol and aspirin did not seem to be additive. There was also inhibition of monocyte and neutrophil activation by flavanols, but this was not replicated by aspirin. 4′-O-methyl-epicatechin, 1 of the known metabolites of the cocoa flavanol (−)-epicatechin, was consistently effective as an inhibitor of platelet and leukocyte activation. The consumption of a flavanol-rich cocoa beverage also resulted in significant inhibition of platelet aggregation, P/M and P/N, and platelet activation induced by collagen. The inhibitory effects were related to their flavanol content. There was also inhibition of monocyte and neutrophil activation, but here it was concluded that cocoa constituents other than flavanols may contribute to the inhibition that was observed. It can be concluded that cocoa flavanols, their metabolites and possibly other cocoa constituents can modulate the activity of platelets and leukocytes in vitro and ex vivo. The research suggests that the consumption of certain cocoa products may provide a dietary approach to maintaining or improving cardiovascular health.

Parthenolide Content and Bioactivity of Feverfew (Tanacetum parthenium (L.) Schultz-Bip.). Estimation of Commercial and Authenticated Feverfew Products

Abstract— Three physicochemical methods (HPLC, NMR spectroscopy, and HPLC of a derivative) have been used to measure parthenolide in authenticated Tanacetum parthenium (feverfew) and in several commercial purported feverfew products. A bioassay based on inhibition of the secretory activity of blood platelets by extracts of feverfew in comparison with parthenolide was also used. Similar results were obtained for all three physicochemical assays and also for the bioassay. Thus different methodologies yield consistent values for parthenolide content of feverfew preparations. Parthenolide appears to be mainly responsible for the antisecretory effects of extracts of feverfew. Authenticated Tanacetum parthenium grown in the UK contained a high level of parthenolide in leaves, flowering tops and seeds but a low level in stalks and roots. The level of parthenolide in powdered leaf material fell during storage. The purported feverfew products varied widely in their parthenolide content and in some products parthenolide was not detected. Possible reasons for the variation in parthenolide content are discussed. Since therapeutic efficacy has only been demonstrated for preparations of feverfew that contain parthenolide, it is suggested that manufacturers of feverfew products should use measurements of parthenolide as a means of standardization and quality control.

GPIIb-IIIa antagonists cause rapid disaggregation of platelets pre-treated with cytochalasin D. Evidence that the stability of platelet aggregates depends on normal cytoskeletal assembly.

Platelet activation is accompanied by changes in the composition of the platelet cytoskeleton with rapid incorporation and displacement of certain proteins. Here we have inhibited cytoskeletal assembly by pretreating platelets with cytochalasin D (CyD) and investigated the effect on the stability of the aggregates that form. The experiments were performed in both citrated and hirudinized platelet-rich plasma (PRP) and aggregation was induced by adenosine diphosphate (ADP), collagen, the TXA2-mimetic U46619 and adrenaline. Platelets in the aggregates that formed, underwent rapid disaggregation on addition of EDTA or a GpIIb-IIIa antagonist such as MK-852 and GR144053F, all of which are agents that interfere with the ability of fibrinogen to interact with GpIIb-IIIa. This was the case irrespective of the aggregating agent used and occurred in both citrated and hirudinized PRP. In contrast, the rate of disaggregation brought about by some other agents, iloprost and ARL 66096, appeared to be unaffected by CyD. Information was also obtained on the effects of CyD on the cytoskeletal changes brought about by ADP and the effects on the cytoskeleton of subsequent addition of M K-852. The results show that CyD retards the incorporation of certain proteins (actin, myosin, alpha -actinin, actin binding protein and a 66 K protein) into the cytoskeleton and that subsequent addition of MK-852 results in rapid displacement of some of these with re-incorporation of a 31 K protein. The results suggest that the early changes in the cytoskeleton following platelet activation contribute to the stability of the aggregates that form, and that interference with these early changes results in aggregates that are easily disassembled by agents that interfere with GpIIb-IIIa-fibrinogen complex formation.

Measurement of platelet P-selectin for remote testing of platelet function during treatment with clopidogrel and/or aspirin.

There is great interest in assessing the efficacy of treatment with clopidogrel and aspirin in patients with cardiovascular disease using procedures that can be used in a remote setting. Here we have established methods to assess the effects of clopidogrel and aspirin on platelets based on measurements of platelet P-selectin. Platelets were stimulated in whole blood by adding the combination of adenosine diphosphate and the TXA2 mimetic U46619 (ADP/U4, designed to assess P2Y12 inhibition) or the combination of arachidonic acid and epinephrine (AA/Epi, designed to assess COX-1 inhibition). The stimulated samples were then fixed using a fixative solution that provides stability for at least 9 days, and sent to a central laboratory for analysis of P-selectin by flow cytometry. Measurements were performed in blood from healthy volunteers and patients with cardiovascular disease. The inhibitory effects of clopidogrel and aspirin were assessed ex vivo and the effects of the direct acting P2Y12 antagonist cangrelor and aspirin were assessed in vitro. Measurements of platelet aggregation were also performed for comparison. In healthy volunteers clopidogrel ex vivo and cangrelor in vitro markedly inhibited P-selectin expression induced by ADP/U4. Aspirin did not inhibit and did not interfere with the effects of clopidogrel or cangrelor using this test. There was very little overlap of results obtained in the absence and presence of clopidogrel or cangrelor. In contrast, over half of 42 patients with cardiovascular disease did not respond well to clopidogrel treatment, although cangrelor was still effective. Aspirin markedly inhibited P-selectin expression induced by AA/Epi. Clopidogrel had much less effect and did not interfere with the effects of aspirin. There was no overlap of results obtained in the absence and presence of aspirin. Aspirin provided near-complete inhibition in 29 of 30 patients with cardiovascular disease. Aggregometry measurements agreed well with the P-selectin data obtained ex vivo following both clopidogrel and aspirin treatment. It is concluded that measurements of P-selectin performed on fixed blood samples following platelet stimulation in whole blood in a remote setting can be used effectively to monitor the effects of clopidogrel and aspirin.

Quantitation of platelet aggregation and microaggregate formation in whole blood by flow cytometry

Platelet aggregation and microaggregate formation were measured in samples of stirred whole blood by flow cytometry. Blood samples were stirred in a multi-sample agitator with ADP, fixed and labelled with a platelet-specific CD42a-FITC fluorescent antibody. The blood was then diluted and applied directly to a flow cytometer. Platelets were identified using a gating procedure based on their expression of CD42a and then quantified. Aggregation was monitored as a fall in the number of single platelets. Both reversible and irreversible aggregation responses to ADP were determined and these were found to correlate directly with aggregation responses determined using a well-established single platelet counting technique using the Ultra-Flo 100 Whole Blood Platelet Counter. We found from flow cytometry that ADP-induced aggregation was coupled with a transient formation of platelet microaggregates over the initial 60 s following ADP addition. Assessment of single platelet loss by flow cytometry was found to be a reliable way of monitoring aggregation responses and provided new information on rapid microaggregate formation in ADP-stimulated blood.

Sesquiterpene lactones from feverfew, Tanacetum parthenium: isolation, structural revision, activity against human blood platelet function and implications for migraine therapy

The structures of two series of sesquiterpene lactones (the ‘α’-series 11, 12 and 16 and the ‘β’-series 15, 17 and 18) present in the herb feverfew have been revised in the light of both X-ray analysis and chemical correlations. A biosynthetic pathway is proposed, involving a Diels–Alder type addition of oxygen followed by two contrasting rearrangements, starting from a common intermediate, the cyclopentadiene 19, which has not been identified in feverfew extracts but which is related to a recently isolated structure. The activity of some of these metabolites as well as of the major sesquiterpene lactone present in feverfew, parthenolide 2, and some simple synthetic models as inhibitors of human blood platelet function has been determined. The possible relevance of this effect to migraine prophylaxis by feverfew is briefly discussed.

Effects on platelet function of an EP3 receptor antagonist used alone and in combination with a P2Y12 antagonist both in-vitro and ex-vivo in human volunteers

EP3 receptor antagonists may provide a new approach to the treatment of atherothrombotic disease by blocking the ability of prostaglandin E2 (PGE2) to promote platelet function acting via EP3 receptors. DG-041 is an EP3 antagonist in the early stage of clinical development. Here, we quantitated effects on platelet function of DG-041 in-vitro and ex-vivo after administration to man when given alone and concomitantly with clopidogrel or clopidogrel and aspirin. With its unique mechanism of action, it was anticipated that DG-041 would potentiate inhibition of platelet function when given in combination with clopidogrel without materially increasing bleeding time. Initially, in-vitro studies were performed to determine inhibitory effects of DG-041 (3 µM) used alone or in combination with the P2Y12 antagonist cangrelor (1 µM), both without and with aspirin (100 µM). Platelet aggregation and P-selectin expression were measured in whole blood (n = 10) following stimulation with the thromboxane A2 (TXA2) mimetic U46619 (0.3 or 1 µM) in combination with either the EP3 agonist sulprostone (0.1 µM), or PGE2 (1 µM). DG-041 alone partially inhibited platelet function in-vitro, as did cangrelor. Addition of both DG-041 and cangrelor in combination provided significantly greater inhibition. An ex-vivo study was then performed using the same experimental approaches. This clinical study was a prospective, randomised, blinded (for DG-041/matching placebo), blocked, crossover study designed to compare the effects of DG-041, clopidogrel, or the combination of DG-041 with either clopidogrel or clopidogrel and aspirin. Healthy volunteers (n = 42) were randomly assigned to receive no background treatment, clopidogrel (300 mg loading dose plus 75 mg daily) or clopidogrel and aspirin (75 mg daily) for 10 days alongside DG-041 (200 mg twice daily) or placebo for 5 days, crossed over to placebo or DG-041 for the next 5 days. Platelet effects and bleeding time were measured at baseline, days 5 and 10. DG-041 partially inhibited platelet function ex-vivo, as did clopidogrel, while administration of both DG-041 and clopidogrel provided significantly greater inhibition. Administration of DG-041 alone did not increase bleeding time, and did not significantly affect the increased bleeding time seen with clopidogrel or clopidogrel with aspirin. Using these experimental approaches, the antiplatelet effects of DG-041 and a P2Y12 antagonist used alone and in combination can be determined both in-vitro and ex-vivo. Results show inhibitory effects of DG-041 on platelet function acting via EP3 receptor blockade, confirmed to be additional to those brought about by P2Y12 blockade. In both in-vitro and ex-vivo studies, aspirin neither promoted nor negated the effects of the other drugs.

P-selectin, tissue factor and CD40 ligand expression on platelet-leucocyte conjugates in the presence of a GPIIb/IIIa antagonist

This study was to investigate the appearance of P-selectin, tissue factor (TF) and CD40 ligand (CD40L) on platelet-leucocyte conjugates in the absence and presence of a GPIIb/IIIa antagonist, MK-852, and the effect of adding EDTA to pre-formed conjugates. The purpose was to find out whether these antigens are displaced from the conjugates along with the platelets, thus providing information on their location. Hirudinized blood was stirred with collagen ((2 μg/mL) in the absence and presence of MK-852 (10 μmol/mL). P-selectin, TF and CD40L were measured on platelet-leucocyte conjugates (CD42a positive monocytes and neutrophils) and on single platelets by flow cytometry. Measurements were also made after subsequent addition of EDTA (4 mmol/L). Platelet-leucocyte conjugate formation was markedly enhanced in the presence of MK-852. P-selectin, TF and CD40L expression on the conjugates was also enhanced. Monocytes bound more platelets and expressed more P-selectin, TF and CD40L than neutrophils. EDTA displaced the majority of platelets from the conjugates and also the P-selectin, TF and CD40L, whereas it did not displaced P-selectin or CD40 ligand from platelets themselves. It is concluded that a GPIIb/IIIa antagonist promotes formation of platelet-leucocyte conjugates, which display P-selectin, TF and CD40L that appears to be associated with the adherent platelets. Platelet-monocyte conjugates are prime candidates for arterial inflammation and thrombosis. Pro-inflammatory and pro-thrombotic effects of CD40L and tissue factor may be an explanation of the negative clinical effects using GPIIb/IIIa antagonists.

Glucose increases spontaneous platelet aggregation in whole blood

Glucose (10-50 mM) added to samples of citrated whole blood increased the spontaneous platelet aggregation (SPA) that was observed upon stirring the samples, in a dose-dependent but time-independent manner. EDTA prevented and also reversed the SPA that occurred in the presence of glucose. Galactose, fructose and 2-deoxyglucose, but not sorbitol and sucrose, had effects on SPA similar to those of glucose. The effect of glucose on SPA in whole blood could not be specifically inhibited by tetramethylene glutaric acid (an inhibitor of aldose reductase). SPA was not affected by pentoxifylline, but was markedly reduced by chlorpromazine. We previously found that glucose, galactose, fructose and 2-deoxyglucose, but not sorbitol and sucrose, render red blood cells more fragile, and the results obtained in the present study provide further evidence that glucose as well as other reducing sugars potentiate SPA in whole blood by liberating ADP or other aggregating material from red blood cells.

Evaluation of a whole blood remote platelet function test for the diagnosis of mild bleeding disorders

Mild platelet function disorders (PFDs) are complex and difficult to diagnose. The current gold standard test, light transmission aggregometry (LTA), including lumi‐aggregometry, is time and labour intensive and blood samples must be processed within a limited time after venepuncture. Furthermore, many subjects with suspected PFDs do not show a platelet abnormality on LTA.