Maria Teresa Santos

Reduction of platelet cytosolic phospholipase A2 activity by atorvastatin and simvastatin: Biochemical regulatory mechanisms

UNLABELLED Statins have demonstrated effects beyond reducing cholesterol level that may contribute to their clinical benefit, including effects on platelet biochemistry and function. OBJECTIVES To explore and compare the antiplatelet effect of two lipophilic statins (atorvastatin and simvastatin) and one hydrophilic statin (pravastatin) concerning: a) collagen-induced platelet aggregation and thromboxane A2 (TXA2) synthesis; b) the additive effect of statins on TXA2 synthesis in platelets treated with a submaximally effective concentration of aspirin and c) the biochemical mechanisms involved. METHODS AND RESULTS Washed human platelets were incubated with statins (1-20μM), and stimulated with collagen (1μg/ml) or arachidonic acid (AA) (200μM) and TXB2 was quantified by ELISA. Incubation with simvastatin or atorvastatin reduced (36.2% and 31.0%, respectively) collagen-induced TXB2 synthesis (p<0.05) and platelet aggregation (p<0.001), whereas pravastatin had no effects. Simultaneous incubation with a submaximally effective concentration of aspirin (1μM) and atorvastatin or simvastatin significantly increased the inhibition of TXB2 synthesis by aspirin by 4.4- and 4.1-fold, respectively. Statins did not affect AA-induced TXB2 synthesis, excluding an effect on COX-1/TXA2 synthase activities. Atorvastatin and simvastatin concentration-dependently inhibited the collagen-induced increase in cytosolic calcium and the kinetics of cPLA2 phosphorylation. Lipophilic statins reduced phosphorylation of both ERK1/2 and p38 MAPK, which regulate cPLA2 phosphorylation and calcium movement. CONCLUSION We report for the first time a direct downregulation by atorvastatin and simvastatin of platelet cPLA2 activity through effects on calcium and MAPK, which reduce collagen-induced TXA2 synthesis. These mechanisms might contribute to their beneficial effects, even in aspirin-treated patients.

Improvement of the circulatory function partially accounts for the neuroprotective action of the phytoestrogen genistein in experimental ischemic stroke

We tested the hypothesis that the phytoestrogen genistein protects the brain against ischemic stroke by improving the circulatory function in terms of reduced production of thromboxane A2 and leukocyte-platelet aggregates, and of preserved vascular reactivity. Ischemia-reperfusion (90 min-3 days, intraluminal filament) was induced in male Wistar rats, and functional score and cerebral infarct volume were the end points examined. Genistein (10mg/kg/day) or vehicle (β-cyclodextrin) was administered at 30 min after ischemia or sham-operation. Production of thromboxane A2 and leukocyte-platelet aggregates, as well as reactivity of carotid artery to U-46619 (thromboxane A2 analogue) and to platelet releasate was measured. At 3 days post-ischemia, both improvement in the functional examination and reduction in the total infarct volume were shown in the ischemic genistein-treated group. Genistein significantly reverted both the increased thromboxane A2 concentration and the increased leukocyte-platelet aggregates production found in samples from the ischemic vehicle-treated group. Both U-46619 and platelet releasate elicited contractions of the carotid artery, which were significantly lower in the ischemic vehicle-treated group. Genistein significantly restored both the decreased U-46619- and the decreased platelet releasate-elicited contractile responses. In conclusion, genistein protects the brain against an ischemia-reperfusion challenge, at least in part, by its beneficial effects on the circulatory function.

Residual cyclooxygenase-1 activity and epinephrine reduce the antiplatelet effect of aspirin in patients with acute myocardial infarction

Aspirin treatment is essential in patients with acute myocardial infarction (AMI) to block platelet thromboxane (TXA)₂ synthesis. Epinephrine is known to enhance platelet reactivity induced by other agonists and to be elevated in patients with AMI due to stress. Our objective was to study the influence of epinephrine on platelet TXA₂ synthesis in patients treated with aspirin for AMI at early onset (within 48 hours) and the potential biochemical mechanisms involved in the functional response. Washed platelets from 45 patients with AMI and 10 aspirin-free controls were stimulated with arachidonic acid (AA) or AA + epinephrine, and aggregation and TXA₂ synthesis were evaluated. Full platelet aggregation was recorded in 8/45 patients (18%) with a partial TXA₂ inhibition (86%) vs. the aspirin-free controls. Platelets from the remaining 37 patients did not aggregate to AA and had TXA₂ inhibition >95%. However, when platelets were simultaneously stimulated with AA + epinephrine, in 25/37 patients a large intensity of aggregation (73%) was observed and a 5.5-fold increase in TXA₂ synthesis, although this remained residual (<5% of aspirin-free controls). This residual-TXA₂ was critical in the functional response, as demonstrated by the complete inhibition by TXA₂ receptor blockade or additional aspirin in vitro. The phosphatidylinositol-3-kinase activity and the cytosolic calcium levels participated in this platelet response elicited by a receptor cooperation mechanism, while the Rho/p160(ROCK) pathway or the blockade of the ADP receptors (P2Y1, P2Y12) were without effect. Residual-cyclooxygenase -1 activity and epinephrine enhance TXA₂-dependent platelet function, which may reduce the clinical benefit of aspirin in patients with AMI.

Neutrophil extracellular traps are increased in patients with acute ischemic stroke: prognostic significance

Neutrophil extracellular traps (NETs) are networks of DNA, histones, and proteolytic enzymes produced by activated neutrophils through different mechanisms. NET formation is promoted by activated platelets and can in turn activate platelets, thus favoring thrombotic processes. NETs have been detected in venous and arterial thrombosis, but data in stroke are scarce. The aim of this study was to evaluate NETs in the plasma of patients with acute ischemic stroke and their potential association with baseline clinical characteristics, stroke severity, and one-year clinical outcomes. The study included 243 patients with acute ischemic stroke. Clinical and demographic data and scores of stroke severity (NIHSS and mRs) at onset and discharge were recorded. Markers of NETs (cell-free DNA, nucleosomes, and citrullinated histone 3 (citH3)), were determined in plasma. Patients were followed-up for 12 months after the ischemic event. NETs were significantly elevated in the plasma of patients with acute ischemic stroke when compared to healthy subjects. NETs were increased in patients who were over 65 years of age and in those with a history of atrial fibrillation (AF), cardioembolic stroke, high glucose levels, and severe stroke scores at admission and discharge. In multivariate analysis, elevated levels of citH3, the most specific marker of NETs, at onset were independently associated with AF and all-cause mortality at one-year follow-up. NETs play a role in the pathophysiology of stroke and are associated with severity and mortality. In conclusion, citH3 may constitute a useful prognostic marker and therapeutic target in patients with acute stroke.

Influence of COX-inhibiting Analgesics on the Platelet Function of Patients with Subarachnoid Hemorrhage

BACKGROUND Platelet function of patients with subarachnoid hemorrhage (SAH) may play an important part in both rebleeding and delayed cerebral ischemia, but little is known about aggregation pathways during the acute phase of stroke. Analgesics are used regularly in the first days after bleeding, and some can potentially inhibit the cyclooxygenase (COX) enzyme. We examined the platelet function of patients with SAH in order to describe their basal situation and determine whether the administration of intravenous nonsteroidal antiinflammatory drugs (NSAIDs) affected platelet aggregation. METHODS Arachidonic acid (AA)-induced aggregation and the platelet function analyzer (PFA)-100 test with collagen/epinephrine cartridges were used to study a group of SAH patients that was treated with dexketoprofen and dipyrone and to compare them to patients that had received no analgesia. RESULTS Ninety-six consecutive SAH patients prospectively enrolled in platelet studies. Twenty-seven patients were taking NSAIDs (10 on dexketoprofen and 17 on dipyrone), and there were 15 cases in the control group. AA-induced aggregation was 10% ± 3.2% for NSAIDs (mean ± standard error), specifically 17.2% ± 7% for dexketoprofen and 5.7% ± 1% for dipyrone. Aggregation in the control group was 72.4% ± 6% (P = .001). Both analgesics slowed the platelet plug formation during the PFA-100 test, with closure times of 237.2 ± 25 seconds for dexketoprofen and 198.4 ± 22 seconds for dipyrone and 138.1 ± 21 seconds in controls (P = .02). CONCLUSIONS The administration of COX-inhibiting analgesics leads to an hypoaggregability state in the first days of SAH. Further insight into their impact on complications such as rebleeding and delayed cerebral ischemia is needed in order to optimize the headache treatment of SAH.

Adherence to Aspirin in Secondary Prevention of Ischemic Stroke

Objective: Compliance with antiplatelet therapy is essential for the efficiency of secondary prevention of ischemic stroke. The objective of this study was to evaluate adherence to aspirin treatment in patients with ischemic stroke. Patients and Methods: We studied outpatients of 5 neurological ambulatory centers in an urban city, Valencia, all with a history of ischemic stroke who had received aspirin for at least 6 months. A personal interview was carried out in all cases, during which the patients were questioned about adherence to treatment. Platelet thromboxane A2 synthesis was assessed in a single laboratory for the biochemical determination in all patients. Results: A total of 73 patients (mean age 67) were studied, with a mean duration of aspirin therapy of 25.4 months (range 6–144 months). Sixty-six patients (90.4%) were included in laboratory tests. All showed inhibition of thromboxane A2 synthesis, consistent with adherence to treatment. Conclusions: Aspirin compliance was found to be excellent. All the patients who presented themselves for laboratory tests were taking aspirin. Even if the patients who failed to show up for laboratory testing are regarded as noncompliants, at least 90% of all patients were compliants – in agreement with the findings of the recent literature. Personal interview plus biochemical determination of platelet thromboxane A2 synthesis seem adequate for assessing adherence to aspirin.

Characterisation of DWI-MRI confirmed cerebral infarcts in patients with subarachnoid haemorrhage and their association with MMP-9 levels

Abstract Objectives: It has been suggested that metalloproteinase-9 (MMP-9) could predict the onset of cerebral vasospasm after subarachnoidal haemorrhage (SAH). The aim of this study was to analyse, in patients with SAH, the difference between patients with MRI ischaemic infarcts and patients without, and to investigate the role of metalloproteases as a prognostic factor for ischaemic infarcts. Methods: Sixty eight consecutive patients with SAH and diffusion-weighted magnetic resonance imaging (DWI-MRI) done 3 weeks after SAH. We define two groups, with and without DWI-MRI infarcts. Blood samples were taken at entry, 3 days and 1 week MMP-9 was determined through ELISA method. Results: Forty per cent were male, with a mean age of 54 ± 14 years. Twenty five patients, 36.8%, had DWI-MRI infarcts; in patients with MRI infarcts, SAH was more severe (Fisher = 4 52 vs 25.6%, P = 0.037), with more morbi-mortality (Rankin>3 48 vs 18.6%, P = 0.014), and more symptomatic vasospasm (28 vs 7%, P = 0.031). Levels of MMP-9 were higher than controls, but there were no significant differences between patients with and without infarcts (first determination no infarcts 39.40 ng/ml ± 35.40 vs infarcts 49.75 ng/ml ± 34.54, P>0.005, 3 days no infarcts 72.10 ng/ml ± 70.95 vs infarcts 62.28 ± 33.84, P>0.005, 1 week no infarcts 148.48 ng/ml ± 142.73 vs infarcts 91.51 ng/ml ± 41.20, P>0.005). Conclusion: Thirty eight percent in a well-studied series of patients with SAH have DWI-MRI infarcts; the infarcts were associated to SAH severity, SAH outcome and symptomatic vasospasm. Metalloproteinase-9 was higher in SAH patients than in controls, but it could not discriminate the infarct patients.

Platelet function in malignant hematological disorders.

Purpose of review In this article, we summarize the current knowledge on new roles played by platelets and their interactions with blood components, and their possible implications in malignant hematological disorders. Recent findings Recent reports in the literature are revealing that platelets are important partners in different aspects of physiology and pathophysiology beyond hemostasis and thrombosis, including but not restricted to inflammation, cancer or host defense. Moreover, several studies suggest that platelet interactions with other blood cells could regulate functional and biochemical responses of each other. Finally, platelet alterations in number as well as in function have been observed in different hematological disorders related with the action of treatments. Summary Common complications of leukemia are bleeding and thrombosis, in which the number and activity of platelets undoubtedly play an important role. Probably related with their apparent structural simplicity compared with other hematological cells, the interest in platelets in malignant hematological disorders has been mainly restricted to the determination of the number of circulating platelets. However, different studies have demonstrated that numbers of platelets between 6 and 80 × 109 platelets/l are a poor indicator of the risk of bleeding, as this number does not give any information on the functional activity of these platelets.

The administration of a loading dose of aspirin to patients presenting with acute myocardial infarction while receiving chronic aspirin treatment reduces thromboxane A2-dependent platelet reactivity

Abstract The optimal dose of aspirin for patients presenting with acute myocardial infarction (AMI) while receiving chronic aspirin therapy has not been clearly established. We evaluated whether continued treatment with 100 mg of aspirin or a loading dose (200–500 mg) influences thromboxane A2 (TX) suppression or platelet reactivity. Sixty-four consecutive patients with AMI and 98 healthy subjects (82 aspirin-free and 16 receiving 100 mg daily for a week) were evaluated. Treatment was at the discretion of the attending physician. Collagen (1 µg/ml)-induced TX synthesis, 14C-serotonin-release, platelet aggregation, and the PFA-100 assay were evaluated. The platelet TX synthesis of patients receiving a loading dose of aspirin was sixfold lower than that of patients receiving 100 mg of aspirin (p < 0.005). This was associated with marked reductions in 14C-serotonin-release and arachidonic-acid-induced aggregation and an increase in the PFA-100 closure time (p < 0.01). Categorization of patients according to their TX synthesis (<95% or ≥95% inhibition vs. healthy aspirin-free subjects) revealed that 8% of the patients treated with loading doses had a poor response (<95% inhibition) vs. 53% of those treated with 100 mg (p < 0.001). Patients with lower TX inhibition had higher serum NT-Pro-BNP (p < 0.005), a marker of poor left ventricular systolic function. Administration of a loading dose of aspirin to patients with AMI during existing chronic aspirin treatment induced greater reductions in platelet TX synthesis and TX-dependent platelet reactivity than the continued treatment alone.

TXA2 synthesis and COX1-independent platelet reactivity in aspirin-treated patients soon after acute cerebral stroke or transient ischaemic attack

INTRODUCTION The pharmacological target of aspirin is the inhibition of cyclooxygenase-1 (COX1) and thromboxane-A2 (TX) synthesis. Very few data are available on TX assessment in patients with stroke. We studied platelet TX synthesis, COX1-independent platelet reactivity, the influence of platelet-erythrocyte interactions and the potential association between platelet responses and the severity of stroke, evaluated with a clinical score (NIHSS). MATERIAL AND METHODS We examined 157 aspirin-treated patients with acute stroke or TIA, 128 aspirin-free and 15 aspirin-treated healthy subjects (HS). Collagen-induced TX, platelet recruitment in whole blood and platelets ± erythrocytes (haematocrit 40%) were assessed in patients on daily-aspirin within three days from onset. Arachidonic-acid-, ADP-, thrombin-receptor activating peptide TRAP-, and collagen-induced aggregation were also evaluated. RESULTS Partial TX inhibition (<95% inhibition vs aspirin-free controls) was observed in 13% of patients. This was associated with marked increases in COX1-dependent responses (arachidonic-acid- and collagen-induced aggregation and platelet recruitment; P<0.0001) but not with differences in ADP- or TRAP-induced aggregation. Partial TX inhibition was independently associated with severe stroke (NIHSS ≥ 12) at both admission (P<0.05) and discharge (P<0.05). Among patients with fully blocked TX, those with elevated COX1-independent platelet reactivity (mean+2SD of aspirin-treated HS) were most likely to suffer severe stroke (P<0.05). Platelet-erythrocyte interactions enhanced platelet reactivity in these patients by COX1-dependent and -independent mechanisms (P<0.0001). CONCLUSIONS TX inhibition by aspirin varied across patients. Partial TX inhibition and COX1-independent platelet hyperfunction were associated with more-severe stroke.