Pl(A2) polymorphism of beta(3) integrins is associated with enhanced thrombin generation and impaired antithrombotic action of aspirin at the site of microvascular injury

The PlA1/A2 polymorphism of glycoprotein IIIa and cerebrovascular events in hypertension: increased risk of ischemic stroke in high-risk patients

OBJECTIVE

The platelet GPIIIa plays a pivotal role in platelet aggregation. Previous studies showed an association between the GPIIIa Pl(A1/A2) polymorphism and coronary thrombosis, while there is only contrasting evidence about its role in stroke. We explored the possibility that this polymorphism represents a risk factor for stroke in hypertensive patients.

METHODS

We studied two populations. In loco, we genotyped 140 hypertensive control individuals and 28 hypertensive patients with ischemic stroke. Furthermore, we performed an analysis of previously published data of 451 Sardinian hypertensive patients, already characterized and genotyped.

RESULTS

Association analysis revealed that the Pl(A2) distribution was similar between hypertensive patients with and without stroke, but when considering a more homogeneous population of high-risk hypertensive patients, defined according to ESH/ESC 2003 guidelines, we observed that the frequency of the Pl(A2) allele was higher among stroke versus nonstroke patients (stroke, 46.4%; nonstroke, 22.6%; P = 0.01). The multiple regression analysis taking into account this polymorphism among other factors known to contribute to ischemic stroke confirmed the Pl(A2) allele as an additive risk factor for stroke (B = 0.986, Wald = 4.943, P < 0.03), increasing the risk of stroke by 2.9 (95% confidence interval = 1.23-6.85, P < 0.02). Similar results were obtained in the Sardinian population: in hypertensive patients with three or more risk factors, Pl(A2) increases the risk (odds ratio = 2.8, 95% confidence interval = 1.3-6.0, P < 0.001) and is an additive risk factor for stroke (B = 1.073, Wald = 6.920, P < 0.01).

CONCLUSIONS

Our data suggest that the Pl(A2) polymorphism is a genetic determinant of ischemic stroke in a selected high-risk hypertensive population.

Exploratory aspirin resistance trial in healthy Japanese volunteers (J-ART) using platelet aggregation as a measure of thrombogenicity

Aspirin prevents the production of thromboxane A2 (TXA2) by irreversibly inhibiting platelet cyclooxygenase, exhibiting antiplatelet actions. This agent has been reported to prevent relapse in patients with ischemic heart disease or cerebral infarction via this action mechanism. However, there are individual differences in this action, and aspirin is not effective in some patients, which is referred to as 'aspirin resistance'. In this study, we analyzed laboratory aspirin resistance by platelet aggregation in 110 healthy adult Japanese males using 24 single-nucleotide polymorphisms (SNPs) of nine genes involved in platelet aggregation/hemorrhage. Among SNPs involved in platelet aggregation, aspirin was less effective for 924T homozygote of a TXA2 receptor, 924T>C, and 1018C homozygote of a platelet membrane glycoprotein GPIbalpha, 1018C>T, suggesting that 924T and 1018C alleles are involved in aspirin resistance.

Integrin beta3 Leu33Pro polymorphism increases BRCA1-associated ovarian cancer risk

Integrins are heterodimeric transmembrane glycoproteins that function as key adhesion and cell signalling receptors. A functional polymorphism in the integrin beta3 subunit encoded by the ITGB3 gene, Leu33Pro, has been shown to modify a variety of traits of beta3-expressing cells. To analyse the role of this functional polymorphism in modifying BRCA1-associated ovarian and breast cancer risks, a case-control study was performed among Polish BRCA1 mutation carriers including 319 breast cancer cases, 146 ovarian cancer cases and 290 controls unaffected by breast and ovarian cancer, in situ breast cancer or any other kind of cancer. Genotyping analysis was performed using PCR-based restriction fragment length polymorphism analysis. Odds ratios were calculated using univariate and multivariate logistic regression, taking into account a series of confounding variables, including the presence of related study subjects, that potentially could have biased any association. The results revealed that the ITGB3_Leu33Pro polymorphism was associated with a 2.5-fold increased risk of ovarian cancer, whereas no association with breast cancer risk was found. Thus, it appears that the ITGB3_Leu33Pro polymorphism may potentially increase the risk of ovarian cancer in Polish women with an inherited BRCA1 mutation.

Antithrombotic effects of aspirin based on PLA1/A2 glycoprotein IIIa polymorphism in patients with coronary artery disease

OBJECTIVE

The diallelic glycoprotein IIIa polymorphism P1A1/A2 was attributed to be an inherited risk factor for coronary events. Whether this polymorphism affects response to aspirin in patients with coronary artery disease is not known.

METHODS

We assessed thrombin generation (prothrombin fragment F1+2) in consecutive blood samples collected from bleeding-time wounds in 28 men with coronary artery disease; P1A2 carriers, n=9; P1A1/A1, n=19. Thrombin generation and bleeding time were measured before and after 2 weeks of aspirin 300 mg/day.

RESULTS

Aspirin-depressed thrombin generation in A1 homozygotes (p=0.04), but not in A2 carriers. Bleeding time after aspirin was also prolonged in A1 subjects only (p=0.02).

CONCLUSION

Genotyping for glycoprotein IIIa polymorphism might be helpful in predicting antithrombotic action of aspirin in secondary prevention of coronary artery disease.

Dose-Related Efficacy of Aspirin After Coronary Surgery in Patients With PlA2 Polymorphism (NCT00262275)

BACKGROUND

To evaluate the impact of the genetic polymorphisms affecting aspirin response using platelet aggregation and the response to different aspirin doses after cardiopulmonary bypass, we performed a subanalysis of the results from a randomized trial evaluating low- and medium-dose aspirin and clopidogrel.

METHODS

Blood was collected from consenting patients and DNA extracted. Polymerase chain reaction and restriction fragment length polymorphism analysis was performed to detect Pl(A2), C807T, and A842/C50T polymorphisms. Aspirin efficacy was assessed using light transmission platelet aggregometry, and reported as percentage aggregation and EC50 concentrations using the technique of Born.

RESULTS

Of 90 patients, 80 consented to further genetic testing, of whom 63 patients were randomly assigned to medium- (325 mg) or low-dose (100 mg) aspirin. The Pl(A2), C807T, and A842/C50T gene frequencies were 30%, 66%, and 21%, respectively, with no identifiable differences in the baseline platelet aggregation. Postoperatively, after 5 days of aspirin, platelet aggregation was consistently but not significantly impaired with Pl(A2) and A842/C50T carriers and consistently but not significantly improved with C50T carriers. An interaction term was identified on percentage aggregation and EC50 using epinephrine. The interaction coefficient describes a higher aggregation of 19% (95% confidence interval: 2 to 36; p = 0.03) and less inhibition with an EC50 of -2.07 (-4.19 to 0.04; p = 0.06) in patients who were both Pl(A2) positive and receiving low-dose aspirin.

CONCLUSIONS

Genetic polymorphisms that affect the response to aspirin are common. The impaired response of persons with the Pl(A2) polymorphism to aspirin may be dose related, with significant improvement observed in patients using medium- rather than low-dose aspirin.

Variation and importance of aspirin resistance in patients with known cardiovascular disease

AIM

To investigate whether aspirin resistance is a persistent condition, and to evaluate if aspirin resistance affects one-year clinical outcome.

METHODS AND RESULTS

Previously we studied 298 patients admitted to hospital with symptoms suggestive of an acute myocardial infarction (MI) despite treatment with aspirin, and 70 patients (23.5%) were aspirin resistant. In the present study, platelet function was reassessed by use of a Platelet Function Analyzer-100 one year later. A total of 187 patients were re-examined, and 17 (9.1%) demonstrated aspirin resistance. Of these 17 patients, 12 also exhibited aspirin resistance at baseline resulting in a 6% (12/187) prevalence of persistent aspirin resistance. A total of 34 patients had changed from aspirin resistant at baseline to aspirin sensitive at follow-up. We found a significant decrease in the prevalence of aspirin resistance from baseline (43%) to follow-up (11%) in patients with MI at baseline (p=0.0018). Furthermore, a significant decrease was found for patients without MI at baseline (20% to 9%, p=0.0009). During follow-up, 17% (12/70) of the patients with aspirin resistance at baseline suffered death, MI or stroke compared to 16% (37/227) of aspirin sensitive patients (p=0.868).

CONCLUSION

The prevalence of aspirin resistance varies with the clinical status of the patients, and indeed an acute MI is associated with temporary aspirin resistance. We also found that 6% of patients demonstrate persistent aspirin resistance. The presence of aspirin resistance did not affect one-year clinical outcome.

Antiplatelet Drug Resistance and Drug-Drug Interactions: Role of Cytochrome P450 3A4

Antiplatelet therapy provided pivotal advances in the treatment of cardiovascular disease. Aspirin and thienopyridine, clopidogrel, is currently the treatment of choice in acute coronary syndromes and the prevention of thrombosis after coronary stent implantation. Despite the efficacy of this dual antiplatelet therapy in reduction of adverse coronary events in patients with acute coronary syndromes, complications persist in a subgroup of these patients. Emerging causes of aspirin and clopidogrel resistance may translate to increase risk for recurrent myocardial infarction, stroke, or cardiac related mortality. However, the mechanism of antiplatelet drug resistance remains incompletely characterized, and a sensitive and specific assay of aspirin and clopidogrel effect that reliably predicts treatment failure has not emerged. To date, evidence supporting antiplatelet drug resistance are pharmacokinetic response variability, drug-drug interaction through competitive inhibition a specific enzymatic pathway, genetic variability, and variability in the induction of enzymatic pathway in metabolic activation of prodrugs, like clopidogrel. Further investigation or guidelines are needed to optimize antiplatelet treatment strategies to identify and treat patients resistant to aspirin and/or clopidogrel.

Aspirin resistance: truth or dare

Acetylsalicylic acid, or aspirin (ASA), is widely used in patients with cardiovascular disease to prevent acute ischemic events. However, platelet response to ASA is not equal in all individuals, and a high variability in the prevalence of ASA resistance is reported in the literature (0.4-83%). Actually, ASA resistance is poorly understood; this stems from the fact that its definition is unclear, its presence can be evaluated by a number of assays that are not equivalent, and its prevalence may vary widely based on the population studied. This article (1) exposes the difficulties in defining ASA resistance; (2) discusses the mechanisms by which ASA resistance may occur; (3) presents the characteristics that may put patients at greater risk of exhibiting ASA resistance; and (4) discusses the clinical impact of ASA resistance in patients requiring chronic therapy.

Models of blood coagulation

Our research aims to provide quantitatively transparent, biologically realistic descriptions of the processes involved in hemostasis which will permit predictions of the behavior of the coagulation system in normal and pathologic states. We use four models of coagulation: (1) numerical approximations of the tissue factor (Tf) pathway of thrombin generation based upon mechanism and dynamics; (2) Tf activation of the "blood coagulation proteome" from isolated cells and proteins; (3) Tf activated contact pathway inhibited whole blood in vitro; and (4) blood shed from standardized microvascular wounds in vivo. The results from these models are integrated in interactive assessments aimed at achieving convergence of biochemical rigor and biological authenticity. Microvascular injury is the most biologically secure but least accessible to mechanistic study. Numerical models while quantitatively transparent are biologically limited. By the integrated analyses of all four models, we establish observations which require inclusion or discovery of new parameters to achieve mechanistically interpretable biological reality. Discoveries made in this fashion have included thrombin's role in the initiation phase, TFPI/ATIII/APC synergy interactions, rfVIIa in fVII deficiency, the roles of fVIII and fIX in the Tf reaction, and the cleavage of fIX by fXa membrane. Ideally, our results will provide descriptions which predict the behavior of the biological blood coagulation system under normal and pathologic conditions.

Aspirin Resistance: A Review Of Diagnostic Methodology, Mechanisms, and Clinical Utility

Ingestion of a daily aspirin in patients with coronary artery disease decreases the rate of occlusive atherosclerotic events by about 25 percent. Some patients whose platelets are minimally inhibited by aspirin are categorized as aspirin resistant. Three reports document an increased risk for future vascular events in aspirin resistant patients. Aspirin's platelet inhibitory effect is measured using a variety of techniques. The demarcation between minimal and expected aspirin inhibition of platelets is arbitrarily determined by each investigator which leads to confusion in translating these reports to patient care. The focus of this report is the relative merits of the different techniques and their utility for defining patients with minimal aspirin induced platelet inhibition. The clinically useful mechanisms underlying decreased aspirin induced platelet inhibition include failure of a patient to take their daily aspirin, poor compliance, and nonsteroidal anti-inflammatory drugs (NSAIDs) interference with aspirin's ability to get to its binding site on the cyclooxygenase enzyme-1 (COX-1)]. Compliance is best assessed by comparing the results obtained with arachidonic acid (AA) stimulated light aggregation at two time points. The first time point is while the patient is supposedly taking their usual daily aspirin and the second time point is 2 hours after the patient is observed to ingest 325 mg of aspirin. After observed ingestion of aspirin, those patients with minimal aspirin inhibition of platelets are best detected using light aggregation stimulated by a new platelet agonist platelet prostaglandin agonist (PPA). In order for the results of a particular technique to be clinically meaningful it must be shown that those patients with minimal aspirin inhibition of platelets have an increased risk for a future vascular event that is independent from known major cardiovascular risk factors.

Aspirin and clopidogrel resistance: an emerging clinical entity

Antiplatelet therapy is a cornerstone of cardiovascular medicine. Aspirin and clopidogrel have emerged as critical therapies in the treatment of cardiovascular disease. Despite their efficacy, patients on these medications continue to suffer complications. Millions of patients are currently on low-dose antiplatelet therapy but it is unknown how many of these patients are under-treated or on the wrong medication. Aspirin and clopidogrel resistance are emerging clinical entities with potentially severe consequences such as recurrent myocardial infarction, stroke, or death. The mechanism of resistance remains incompletely defined, but there are specific clinical, cellular, and genetic factors that influence therapeutic failure. These factors range from physicians who fail to prescribe these medications despite appropriate indications to polymorphisms of platelet membrane glycoproteins. Rapid and accurate diagnosis of antiplatelet resistance also remains an issue as new bedside tests are developed. By understanding the mechanism of therapeutic failure and by improving the diagnosis of this clinical entity, a new era of individualized antiplatelet therapy may arise with routine measurements of platelet activity in the same way that cholesterol, blood pressure, and blood sugar are followed, thus improving the care for millions of people.

Antiplatelet Drug Resistance: Not Ready for Prime Time

Antiplatelet drug therapy reduces vascular events in a wide range of patients. Although antiplatelet drug resistance is becoming well documented, a universal definition has not been established. This lack and the lack of standardized measures of platelet function make estimation of the prevalence of antiplatelet drug resistance difficult. Mounting evidence suggests that antiplatelet drug resistance is associated with adverse clinical outcomes, which have been assessed in patients with coronary artery disease, myocardial infarction, cerebrovascular disease, and peripheral vascular disease. Patients with antiplatelet drug resistance have significantly more vascular events than patients without such resistance. However, there are no guidelines for the treatment of antiplatelet drug resistance. Although point-of-care platelet-function testing makes screening for resistance feasible, routine screening should not be standard practice until data regarding the management of antiplatelet drug resistance are available.

Pharmacogénétique et médicaments antiplaquettaires

PURPOSE

The observation of inherited drug response variability gave rise to the field of pharmacogenetics. Pharmacogenetic research on drug targets, particularly platelet enzymes and receptors, is more recent and is becoming an emerging field.

CURRENT KNOWLEDGE AND KEY POINTS

In the Framingham study, the heritability of platelet aggregation response ranges from 44 to 62%, depending on the agonists used. The gene coding for GPIIIa, a sub-unit of the fibrinogen receptor GPIIbIIIa, is one of the most extensively studied gene in relation with aggregation tests and antiplatelet drugs. The GPIIIa PLA1/PLA2 polymorphism has been associated with clopidogrel and orbofiban platelet response. However, data are more controversial concerning the association with aspirin response. Recently, Cox-1 and GPIa (part of the GPIaIIa collagen receptor) genetic variations have also been pointed out as possible candidates to explain part of the variability of the response to antiplatelet agents. Finally, the H1/H2 polymorphism of the platelet ADP receptor P2Y12 gene has been associated with ADP-induced platelet aggregation response and peripheral arterial disease. This polymorphism may modulate the effect of P2Y12 antagonists like clopidogrel and its clinical implication is currently under study.

FUTURE PROSPECTS AND PROJECTS

Gene-expression profiling and proteomics may allow the identification of new candidate genes whose variations may be associated with the heritability of platelet aggregation response. In the next future, phenotypic or genotypic studies could be available to tailor the prescription of antiplatelet drugs.

Aspirin Resistance and Atherothrombotic Disease

Acute coronary syndromes and other manifestations of atherothrombotic disease are primarily caused by atherosclerotic plaque rupture or fissuring and subsequent occlusive or subocclusive thrombus formation. Platelets play a critical role in the pathophysiology of atherothrombotic disease, and aspirin is the most commonly used antiplatelet agent. Clinical trials have demonstrated the efficacy of aspirin in both primary and secondary prevention of myocardial infarction, stroke, and cardiovascular death. Despite its proven benefit, the absolute risk of recurrent vascular events among patients taking aspirin remains relatively high, an estimated 8% to 18% after two years. Therapeutic resistance to aspirin might explain a portion of this risk. Although formal diagnostic criteria and a validated method of measurement are lacking, aspirin resistance may affect between 5% and 45% of the population. Given the prevalence of cardiovascular disease, the potential impact of aspirin resistance is large. Currently, however, there are many unanswered questions regarding the biological mechanism, diagnosis, population prevalence, clinical relevance, and optimal therapeutic intervention for aspirin resistance.

Aspirin resistance: moving forward with multiple definitions, different assays, and a clinical imperative

Many patients are treated with aspirin to prevent a serious vascular event, most notably myocardial infarction and stroke. A growing number of studies have been appearing in the literature that indicate a significant fraction of aspirin-treated patients may be resistant to the antiplatelet effects of the drug. Resistance to aspirin may be related to the concomitant ingestion of aspirin and nonsteroidal anti-inflammatory drugs, which impairs the aspirin effect, or to more complex situations, such as metabolic defects that diminish the therapeutic effect of aspirin. The incidence of aspirin resistance is unknown, but it may approach 20% to 30%. The diagnosis of aspirin resistance has been evaluated using multiple assays, and because there are multiple assays, this has resulted in multiple definitions for aspirin resistance. This review considers aspirin resistance at a time when there is confusion about the definition, and the clinical assay to best assess it, because there is a clinical imperative to know now which patients taking aspirin are not receiving a therapeutic effect.

Aspirin resistance

Treatment failures occur with any drug and aspirin is no exception. Evidence is growing to indicate that there are subpopulations that do not respond to antithrombotic action of aspirin. The term 'aspirin resistance' has been used to describe a number of different phenomena, including inability of aspirin to: (i) protect against cardiovascular events despite its regular intake; (ii) to affect various laboratory tests, reflecting platelet activity. Research on aspirin resistance yielded interesting results in clinical pharmacology and pharmacogenetics. Future studies will show whether genotyping for polymorphisms might be of value in everyday clinical use of aspirin. Present data indicate that in survivors of recent myocardial infarction or unstable angina, patients receiving coronary artery bypass grafts, as well as in subjects with hypercholesterolemia, aspirin resistance has to be considered when implementing antithrombotic therapy. However, in individual patients the available laboratory tests are of no particular use to predict reliably the clinical outcome or to guide in making therapeutic decision. Prospective clinical trials seem necessary to reach such conclusions.

Interplay of platelet polymorphisms, risk factors, and von [corrected] Willebrand factor [corrected] in determining collagen-adenosine diphosphate PFA-100 results in patients with coronary artery disease

Platelets play a pivotal role in thrombus formation in patients with coronary artery disease (CAD), since the high shear generated in the presence of severe coronary stenoses can increase platelet reactivity (PR) and trigger thrombogenesis. Several reports have suggested a functional effect of human platelet antigen (HPA)-1 and HPA-2 gene polymorphisms on PR. However, the true determinants of high-shear PR in CAD patients taking their usual medications are still incompletely understood. In 104 patients with stable CAD we analyzed the possible clinical, biochemical and genetic factors affecting high-shear PR, measured by the ex vivo platelet function analyzer (PFA-100) collagen-adenosine diphosphate method. In univariate analysis, a lower PR was associated with decreased plasma von Willebrand factor-ristocetin cofactor activity, increased blood levels of triglycerides, female sex, use of thienopyridines, lower platelet count, and HPA-1b carriership. All variables, except HPA-1b, remained associated with lower PR in multivariate analysis. However, the introduction in the model of the HPA-1 and HPA-2 genotypes as interaction terms led to a significant improvement in the prediction of PR, although the quantitative effect was small (about 3% improvement, P=0.046).Thus, in CAD patients, there seems to be only a mild effect of the platelet glycoprotein HPA-1 and HPA-2 polymorphisms on collagen-adenosine diphosphate-stimulated PR after the effect of well-established clinical and biochemical determinants are considered.

Resistance to antiplatelet therapy

Cardiovascular mortality continues to be high and events continue to occur in patients taking antiplatelet medications. Aspirin and clopidogrel have become integral parts of management in patients with coronary artery disease and after percutaneous angioplasty. However, the platelet responses to aspirin and clopidogrel are not uniform. Diminished or lack of response to these agents has been termed aspirin resistance and clopidogrel resistance. These phenomena have tremendous clinical significance as together they may occur in more than 50% of all patients on chronic therapy with aspirin or clopidogrel. Postulated mechanisms of aspirin and clopidogrel resistance include alterations in genetic, pharmacokinetic, and platelet properties. There is a dearth of information in regard to their clinical significance, methods to test them, and strategies to treat them. Further research is necessary in these areas to identify these patients and treat them appropriately.

Variation in ITGB3 has sex-specific associations with plasma lipoprotein(a) and whole blood serotonin levels in a population-based sample

A recent genome-scan identified the Leu33Pro polymorphism in the beta3 integrin (ITGB3) gene as a quantitative trait locus for whole blood serotonin level in a large Hutterite pedigree. Because both the Leu33Pro polymorphism and the serotonin system have been implicated in cardiovascular disease (CVD) risk and treatment response, we studied additional variation in ITGB3 and its relationship to intermediate phenotypes associated with CVD in the same population. We examined associations between 15 single nucleotide polymorphisms (SNPs) across ITGB3 and five CVD-related traits in the Hutterites: plasma levels of high density lipoprotein-cholesterol (HDL-c), triglycerides (TG), low density lipoprotein-cholesterol (LDL-c), and lipoprotein(a) [Lp(a)] and blood pressure or hypertension. Seven of these SNPs in ITGB3 were associated with whole blood serotonin. Among the intermediate CVD-related phenotypes, only Lp(a) was associated with multiple ITGB3 SNPs, five of which were also associated with serotonin. A sex-stratified analysis revealed that the association between ITGB3 and Lp(a) is present only in females, whereas the association between ITGB3 and serotonin is concentrated in males. Our results suggest that variation in ITGB3 in addition to Leu33Pro could contribute to susceptibility to CVD and serotonin in a sex-specific manner.

Genetics of platelet glycoprotein receptors: risk of thrombotic events and pharmacogenetic implications

Platelet aggregation and coronary thrombosis have a central role in the development of acute coronary syndromes and myocardial infarction (MI). Therapies aimed at inhibiting platelet aggregation have shown great benefit in individuals with coronary disease or with multiple risk factors for coronary disease. Genetic variation in platelet surface receptors mediating thrombus formation has been suggested to be associated with platelet hyperreactivity, with increased risk of MI and possibly with the benefit received from various antithrombotic drug treatments. This review focuses on discrepancies and their likely explanations in studies on platelet glycoprotein genetics. Current knowledge on important issues concerning coronary event phenotypes and pharmacogenetics is analyzed. Possible future applicability of these data to patient treatment is also discussed.

Variation in ITGB3 is associated with asthma and sensitization to mold allergen in four populations

RATIONALE

Recent genetic studies have implicated integrins in asthma and atopy susceptibility. We therefore evaluated the integrin-beta3 gene (ITGB3), an integrin gene within an asthma linkage peak on chromosome 17, as a candidate for susceptibility to asthma- and atopy-related phenotypes.

METHODS AND MEASUREMENTS

We genotyped and performed association tests on 19 single nucleotide polymorphisms in ITGB3 in the Hutterites, a founder population, and in three outbred replication populations.

MAIN RESULTS

Variation in ITGB3 was strongly associated with susceptibility to bronchial hyperresponsiveness and protection from allergic sensitization to mold allergens in this population. Three independent case-control populations representing Caucasians and African Americans were used to replicate this finding, also revealing ITGB3 alleles that are associated with asthma susceptibility and protection from mold allergen sensitization.

CONCLUSIONS

This study provides evidence that ITGB3 plays a role in the pathogenesis of asthma and sensitization to mold allergens.

The role of platelet glycoprotein IIIa polymorphism in the high prevalence of in vitro aspirin resistance in patients with intracoronary stent restenosis

OBJECTIVES

The aim of our study was to determine the relation between platelet glycoprotein IIIa (Pl A ) polymorphism and aspirin resistance in patients with intracoronary stent restenosis.

BACKGROUND

Clinically, aspirin resistance is defined as having thrombotic and embolic cardiovascular events despite regular aspirin therapy. Platelet glycoprotein IIIa polymorphism is said to be a possible mechanism of aspirin resistance.

METHODS

We studied the prevalence of aspirin resistance in 204 previously intracoronary stent-implanted patients with stable coronary artery disease. In 102 of these patients, intracoronary stent restenosis was present. Platelet functions were analyzed in a platelet function analyzer (PFA-100, Dade Behring, Germany) with collagen and/or epinephrine (Col/Epi) and collagen and/or adenosine diphosphate cartridges. Closure time <186 seconds was defined as aspirin resistance with Col/Epi cartridges of PFA-100. The Pl A polymorphisms of 43 aspirin-resistant and 51 aspirin-sensitive subjects were determined with polymerase chain reaction and restriction fragments length polymorphism.

RESULTS

A total of 31.3% (n = 32) of patients with intracoronary stent restenosis and 10.7% (n = 11) of patients with patent intracoronary stents were resistant to aspirin by PFA-100. The Pl A1,A1 allele of glycoprotein IIIa was present in 36 subjects (83.7.%) and the Pl A1,A2 allele was present in 7 subjects (16.2.%) in the aspirin-resistant patients group. The Pl A1,A1 allele of glycoprotein IIIa was present in 37 subjects (72.5%) and the Pl A1,A2 allele was present in 14 subjects (27.5%) in the aspirin-sensitive patients group ( P = .195).

CONCLUSION

Our results suggest that platelets of patients with intracoronary stent restenosis with or without Pl A2 heterozygosity of glycoprotein IIIa are more likely to be resistant to low-dose aspirin therapy.

A potential pharmacogenomic strategy for anticoagulant treatment in non-ST elevation acute coronary syndromes: the role of interleukin-1 receptor antagonist genotype

OBJECTIVES

Our aim was to determine a pharmacogenomic approach to heparin use in non-ST elevation acute coronary syndromes, specifically the impact of interleukin (IL)-1 receptor antagonist polymorphisms upon von Willebrand factor (vWF) responses to unfractionated heparin (UFH) and low molecular weight heparin (LMWH).

BACKGROUND

In acute coronary syndromes (ACS), identification of specific biological or genetic targets to direct pharmacological treatment remains a challenge. vWF has been shown to predict future cardiovascular risk and the response to anticoagulant treatments during non-ST elevation ACS. IL-1 receptor antagonist (IL-1RN) polymorphisms predict the change in vWF between 24 and 48 h (Delta vWF) during non-ST elevation ACS.

METHODS

We genotyped at the IL-1 locus, 67 patients with non-ST elevation ACS who received either LMWH or UFH, and measured vWF levels at 24 and 48 h.

RESULTS

LMWH was superior to UFH in reducing the rise in vWF between 24 and 48 h in the cohort as a whole. However, when patients were stratified by IL-1RN genotype, LMWH was superior to UFH in reducing Delta vWF only in allele *2 carriers (0.51 iU mL(-1) vs. 1.37, P < 0.01), but not in non-carriers (- 0.03 iU mL(-1) vs. 0.15, P = NS).

CONCLUSION

IL-1RN genotype may be a useful marker to identify patients that benefit from LMWH in non-ST elevation ACS.

Influence of beta3 integrin gene Leu/Pro33 polymorphism on primary glomerulonephritis

BACKGROUND

Beta3 integrin subunit is expressed as alpha(IIb)beta3 integrin on platelets and as alpha(v)beta3 integrin on a variety of cells including renal endothelial, mesangial and tubular cells. Leu33/Pro33 polymorphism of beta3 integrin has been associated with altered platelet functions, cardiovascular complications and the incidence of acute rejection episodes in renal transplantation. We investigated its influence on IgA nephropathy (IgAN), focal segmental glomerulosclerosis (FSGS) and membranous glomerulonephritis (MGN).

METHODS

We studied 251 patients with biopsy-proven primary glomerulonephritis (IgAN n = 127, FSGS n = 71, MGN n = 53) followed up for 6.3 +/- 5.3 years and 100 control subjects. Patients were classified according to the slope of reciprocal serum creatinine into slow (n = 162) and fast progressors (n = 89). Leu33/Pro33 polymorphism was determined by PCR amplification followed by restriction with the endonuclease Bcnl.

RESULTS

The genotype frequencies were similar in patients and controls (n.s.). Initial renal function, proteinuria and blood pressure did not differ significantly between patients with different genotypes (n.s.). The genotype frequencies were similar in slow and fast progressors (n.s.). Furthermore, Leu33/Pro33 polymorphism had no impact on renal survival in the Kaplan-Meier analysis (n.s.).

CONCLUSION

Our results indicate that beta3 integrin Leu33/Pro33 polymorphism is not a risk factor or a marker of progression in primary glomerulonephritis.

Platelets and Thrombosis in Myeloproliferative Diseases

The myeloproliferative disorders have been the “poor cousins” in the family of hematological malignancies for some time. Recently this field has advanced considerably with the description of a mutation in the JAK2 kinase detectable in the majority of patients and the publication of two landmark clinical trials—ECLAP and MRC PT1. But although both ECLAP and MRC PT1 inform clinical management and allude to the complexities of thrombosis we still lack fundamental knowledge, and our understanding of thrombosis in these conditions has not paralleled advances in the field of thrombosis and vascular biology. The predominant clinical complications of essential thrombocythemia and polycythemia vera are thrombotic and hemorrhagic; these significantly impact upon prognosis and quality of life. Here the current status of our knowledge is reviewed with specific emphasis upon the role of the platelet in the pathogenesis of thrombosis as well as the impact of recent data from ECLAP and MRC PT1.

Platelets and Thrombosis in Myeloproliferative Diseases

The myeloproliferative disorders have been the “poor cousins” in the family of hematological malignancies for some time. Recently this field has advanced considerably with the description of a mutation in the JAK2 kinase detectable in the majority of patients and the publication of two landmark clinical trials—ECLAP and MRC PT1. But although both ECLAP and MRC PT1 inform clinical management and allude to the complexities of thrombosis we still lack fundamental knowledge, and our understanding of thrombosis in these conditions has not paralleled advances in the field of thrombosis and vascular biology. The predominant clinical complications of essential thrombocythemia and polycythemia vera are thrombotic and hemorrhagic; these significantly impact upon prognosis and quality of life. Here the current status of our knowledge is reviewed with specific emphasis upon the role of the platelet in the pathogenesis of thrombosis as well as the impact of recent data from ECLAP and MRC PT1.

Integrin ?3 Leu33Pro polymorphism and breast cancer risk: a population-based case-control study in Germany

A functional polymorphism at codon 33 (leucine-to-proline, Leu33Pro)/nucleotide 1565 (T-to-C, T1565C) of the integrin beta3 has been hypothesized to increase the risk of breast cancer and its metastasis. Three studies have been conducted up to date and the results were contradictory. We used a large population-based age-matched case-control study in German Caucasian women by the age of 50 years to assess breast cancer risk associated with this polymorphism, taking into consideration of possible interaction with other risk factors, and to examine if it affects clinical presentation. Overall, the odds ratios (OR) for breast cancer were not increased in women carrying either allele. However, we observed a differential effect of the Leu33Pro polymorphism by age group when patients were stratified by 45 years of age (p=0.055). Being a carrier of the 33proline allele was found to be associated with a 32% increased risk (95% Cl=1.0-1.8) for breast cancer compared to the wild-type leucine homozygotes among women age 45 or younger but not in older women. Furthermore, we observed significant dose effect of the 33proline allele (p=0.04), with 30% risk increase per allele (95% Cl=1.0-1.7). Significant evidence was also found for a positive association between 33proline carrier status and increasing axillary node involvement (p=0.048) but neither size nor grading of tumor in this study. Our data suggest that inheritance of the integrin beta3 Leu33Pro polymorphism may increase the breast cancer risk by age 45 in the German population.

Association of genetic polymorphisms in the fibrinogen and platelet glycoprotein genes with unstable angina in Chinese patients

BACKGROUND

Inherited predisposition has been associated with coronary artery disease (CAD) in the white population.

HYPOTHESIS

The objective of this study was to investigate the association between the risk of unstable angina (UA) and genetic factors believed to be associated with an increased tendency toward thrombosis (the variable number of tandem repeats [VNTR] polymorphism of the platelet glycoprotein [GP] Ib alpha gene, Pl(A1/A2) of the platelet GP IIIa gene, 448G/A of the Bbeta fibrinogen gene and Thr312Ala of the Aalpha fibrinogen gene) in Chinese patients with UA.

METHODS

We performed a case/control study evaluating 69 Chinese patients (43 men, 26 women) with UA and 69 control subjects without CAD, individually matched for age and gender. The restriction fragment length polymorphism (RFLP) method was used to determine the genetic polymorphisms.

RESULTS

The frequencies of GP Ib alpha C/B genotype and Bbeta fibrinogen 448A allele were higher in patients with UA (46.4 vs. 30.4%, odds ratio [OR] 1.977, 95% confidence interval [CI] 0.98-3.97, p = 0.054, and 49.3 vs. 20.3%, OR 3.816, 95% CI 1.797-8.103, p = 0.000, respectively). Only four subjects (two cases, two controls) with GP IIIa Pl(A2) allele were found, and there was no association between Aalpha fibrinogen Thr312Ala polymorphism and UA.

CONCLUSIONS

Chinese patients with UA had increased frequencies of GP Ib alpha C/B genotype and Bbeta fibrinogen 448A allele. These data suggest that some genetic factors may influence the development of UA.

Does the genotype predict the phenotype? Evaluations of the hemostatic proteome

In this review, the complexity arising from the heterogeneity of the human hemostatic proteome is introduced and discussed with respect to impact on the diagnosis, prophylaxis and therapeutic interventions in thrombotic and hemorrhagic diseases. In the 'healthy' population, coagulation factor levels extend over a 2-4-fold range in concentration. In addition, the qualitative performance of these proteins is governed by many molecular events which are influenced both by genetic instructions which influence post-translational modification and by environmental processes that alter coagulation proteins during circulation. As a consequence, the stimulus-response coupling which follows tissue factor presentation to blood and the subsequent expression of thrombin activity is highly variable even in the 'normal' population. The consequences of this molecular heterogeneity and its potential influence on the diagnosis, prophylaxis and ultimate therapy of coagulation diseases are illustrated. It is the intention of the authors to be provocative; encouraging further investigations to understand the clinical significance of the heterogeneity of the human hemostatic proteome.

A novel adaptation of the integrin PSI domain revealed from its crystal structure

Integrin beta-subunits contain an N-terminal PSI (for plexin-semaphorin-integrin) domain that contributes to integrin activation and harbors the PI(A) alloantigen associated with immune thrombocytopenias and susceptibility to sudden cardiac death. Here we report the crystal structure of PSI in the context of the crystallized alphaVbeta3 ectodomain. The integrin PSI forms a two-stranded antiparallel beta-sheet flanked by two short helices; its long interstrand loop houses Pl(A) and may face the EGF2 domain. The integrin PSI contains four cysteine pairs connected in a 1-4, 2-8, 3-6, 5-7 pattern. An unexpected feature of the structure is that the final, eighth cysteine is located C-terminal to the Ig-like hybrid domain and is thus separated by the hybrid domain from the other seven cysteines of PSI. This architecture may be relevant to the evolution of integrins and should help refine the current models of integrin activation.

Genome-wide association study identifies ITGB3 as a QTL for whole blood serotonin

Serotonin has been implicated in common disorders involving the central nervous, gastrointestinal, cardiovascular, and pulmonary systems. We describe the first genome-wide screen to identify quantitative trait loci (QTLs) influencing whole blood serotonin in 567 members of a single large pedigree, using a novel association-based mapping approach. We identified an association between the beta3 integrin (ITGB3) Leu33Pro polymorphism on 17q21 and whole blood serotonin levels (P-value = 9.8 x 10(-5)). This variant explained the evidence for linkage in this region when included as a covariate in the linkage analysis (change in LOD from 1.87 to 0.16), indicating that ITGB3 may be an important serotonin QTL.

Aspirin Resistance in Cardiovascular Disease: A Review

BACKGROUND

Aspirin is effective at reducing the cardiovascular event rate in defined patient groups. The introduction of antiplatelet therapies other than aspirin and the concept of aspirin resistance have led to critical reappraisal of current treatment. This review aims to clarify the evidence for aspirin resistance in patients with atherosclerosis.

METHODS

Medline search was performed to identify publications concerned with antiplatelet effects of aspirin and failure of aspirin therapy. Manual cross referencing was also performed.

RESULTS AND CONCLUSION

Wide variations in the rate of aspirin resistance (5.5-75%) have been reported. The lack of consensus on an appropriate definition and the number of different tests used to investigate aspirin resistance needs to be addressed. There are few studies where the primary aim was to document aspirin resistance or aspirin non-response. Further work should aim to investigate if aspirin resistance is clinically important and, if it is, what treatments may be beneficial to the at risk patient.

Clinical significance of PlA polymorphism of platelet GP IIb/IIIa receptors during long-term VAD support

BACKGROUND

Although bleeding and thromboembolism remain major complications after implantation of ventricular assist devices (VADs), no standard anticoagulation protocols are available. Genetic polymorphism of platelet glycoprotein IIb/IIIa may contribute to the development of complications. The present study demonstrates a relationship between the PlA genotype and postoperative complications in patients implanted with pulsatile and axial flow VADs.

METHODS

The PlA genotype was determined in 41 consecutive patients treated with a VAD who received anticoagulation with phenprocoumon and aspirin. Pulsatile Novacor (Novacor Corp, Oakland, CA) and Berlin Heart VADs (Berlin Heart, Berlin, Germany) were implanted in 28 patients and the axial flow MicroMed DeBakey VAD (MicroMed Technology, Inc, Houston, TX) in 13. The relationship between the PlA genotype, the anticoagulation regime, and bleeding and thromboembolic events was analyzed.

RESULTS

There were no differences between patients with the A1A1 and A1A2 genotype regarding demographic characteristics, weight, or infection episodes. The international normalized ratio (INR), platelet activation tests, and doses of aspirin and dipyridamol before events were similar in both groups. Patients with the A1A1 genotype developed more bleeding complications (39% vs 0%, p = 0.021), while patients with the A1A2 genotype showed a tendency toward more thromboembolic events (13% vs 30%, p = 0.33). With regard to different types of VAD, patients with the axial flow DeBakey VAD and the A1A1 genotype developed significantly more bleeding complications (70% vs 0%, p = 0.033).

CONCLUSIONS

In patients with a long-term VAD determination of PlA polymorphism and subsequent adjustment of the anticoagulation regime may lead to a reduction of bleeding and thromboembolic complications.

Interaction between a genetic variant of the platelet fibrinogen receptor and fibrinogen levels in determining the risk of cardiovascular events

BACKGROUND

The PlA1A2 polymorphism of glycoprotein IIIa (GPIIIa), which affects postoccupancy signaling by the platelet fibrinogen receptor IIbIIIa, has been investigated as a potential genetic risk factor for cardiovascular events in numerous studies, without consistent results. We investigated whether the effect of this genetic variant of the platelet fibrinogen receptor on the risk of cardiovascular events is affected by fibrinogen plasma levels.

METHODS

The GPIIIa PlA1A2 polymorphism and fibrinogen levels were determined in 455 men with angiographically documented coronary atherosclerosis.

RESULTS

Neither carriership of the rare PlA2 allele nor fibrinogen plasma levels affected the time to cardiovascular event, as assessed in a proportional hazards model. However, there was a significant interaction between PlA2 carriership and fibrinogen plasma levels (P =.002). Carriership of the variant PlA2 allele significantly affected event-free survival only in individuals within the highest fibrinogen quartile (hazard ratio, 2.7; 95% CI, 1.1 to 7.1; P =.03).

CONCLUSIONS

We observed a statistically significant interaction between a genetic variant of the platelet fibrinogen receptor and fibrinogen levels in determining the risk of cardiovascular events. This interaction may account for the inconsistent results of genetic association studies investigating this genotype as a genetic risk factor in thrombotic cardiovascular events.

Failure of aspirin to prevent atherothrombosis: potential mechanisms and implications for clinical practice

Aspirin (acetylsalicylic acid) reduces the odds of serious atherothrombotic vascular events and death in a broad category of high risk patients by about one-quarter. The mechanism is believed to be inhibition of thromboxane biosynthesis by inactivation of platelet cyclo-oxygenase-1 enzyme. However, aspirin is not that effective; it still fails to prevent the majority of serious vascular events. Mechanisms that may account for the failure of aspirin to prevent vascular events include non-atherothrombotic causes of vascular disease, non-adherence to aspirin therapy, an inadequate dosage, alternative "upstream" pathways of platelet activation (e.g. via stimulation of the ADP, collagen or thrombin receptors on platelets), aspirin-insensitive thromboxane biosynthesis (e.g. via monocyte cyclo-oxygenase-2), or drugs that interfere with the antiplatelet effects of aspirin. Genetic or acquired factors may further modify the inhibitory effects of aspirin on platelets (e.g. polymorphisms involving platelet-associated proteins, increased platelet turnover states). Identification and treatment of the potential causes of aspirin failure could prevent at least another 20% of serious vascular events (i.e. over and above those that are currently prevented by aspirin). There is currently no role for routine laboratory testing to measure the antiplatelet effects of aspirin. Clinicians should ensure that patients at high risk of atherothrombosis (>3% risk over 5 years) are compliant with aspirin therapy and are taking the correct dosage (75-150 mg/day). Patients who cannot tolerate aspirin, are allergic to aspirin, or have experienced recurrent serious atherothrombotic events whilst taking aspirin, should be treated with clopidogrel, and patients with acute coronary syndromes benefit from the combination of clopidogrel plus aspirin. Future research is required to standardize and validate laboratory testing of the antiplatelet effects of aspirin and to identify treatments that can both improve these laboratory measures and reduce the risk of future atherothrombotic events.

Role of platelet glycoprotein polymorphisms in cardiovascular diseases

Atherothrombosis is the leading cause of death in western countries. Major complications of atherothrombotic disease, which are responsible for a large burden of morbidity and mortality, are acute coronary syndromes, ischemic stroke, and peripheral occlusive disease. Plaque rupture, platelet adhesion, aggregation, and thrombosis may lead to unstable angina and may progress to myocardial infarction as well as to ischemic stroke. Platelet membrane glycoprotein receptors mediate crucial reactions in acute thrombosis and chronic processes of atherogenesis. The platelet glycoprotein GP IIb/IIIa, which is the most abundant platelet receptor, also represents the drug target of a novel class of anti-platelet drugs, which includes abciximab, tirofiban, and eptifibatide. The genes encoding the three major platelet glycoprotein receptors (GP Ib/IX/V, GP Ia/IIa, and GP IIb/IIIa) are subject to considerable genetic variability. This paper reviews how polymorphisms in the platelet glycoprotein receptors affect platelet function, susceptibility to atherothrombosis and its major complications including myocardial infarction, stroke, and complications following percutaneous coronary interventions, and individual variability of drug response. Recent data on platelet glycoprotein receptor polymorphisms as modifiers of drug action and as predictors of drug response offer the perspective of individualized drug treatment. Prospective studies will show whether this approach is useful or not. As the data reviewed here show clearly, future clinical trials should routinely take into account genetic susceptibility factors and modifiers, both for study design and for predefined patient stratification.

Integrin beta3 Leu33Pro homozygosity and risk of cancer

BACKGROUND

Increased tumor cell expression of integrins containing the beta3 subunit is associated with increased progression to invasive tumors, whereas inhibition of beta3 integrin expression and/or function may reduce tumor growth and metastasis. The Leu33Pro polymorphism of the beta3 subunit modulates the function of alpha(IIb)beta3 integrin. We examined whether this polymorphism influences cancer risk.

METHODS

Using participants (n = 9242) from the Copenhagen City Heart Study with 24 years of follow-up and endpoints from the Danish Cancer Registry, we assessed the risk of all cancers and of 27 cancer types in individuals who carry the Leu33Pro polymorphism (heterozygotes and homozygotes) relative to those without the polymorphism (non-carriers). Relative risks (RRs) of cancer and 95% confidence intervals (CIs) were calculated by Cox proportional hazards regression analysis. Differences in cumulative cancer incidence (per 10 000 person-years) were tested using log-rank statistics. Statistical tests were two-sided.

RESULTS

Among the participants, 70.0% were non-carriers, 27.3% were heterozygotes, and 2.7% were homozygotes. We detected 1296 participants with a first cancer. Cumulative incidences in non-carriers, heterozygotes, and homozygotes were 81, 83, and 112, respectively (homozygotes versus non-carriers, P =.02). The age-adjusted RR of all cancers in homozygotes relative to non-carriers was 1.4 (95% CI = 1.1 to 1.9). Incidences in non-carriers, heterozygotes, and homozygotes were 3, 4, and 16 for ovarian cancer; 19, 24, and 36 for breast cancer; and 2, 3, and 7 for melanoma (homozygotes versus non-carriers; P =.002, P =.06, and P =.03, respectively). The age-adjusted RR in homozygotes relative to non-carriers was 4.7 (95% CI = 1.6 to 14) for ovarian cancer, 1.9 (95% CI = 1.0 to 3.7) for breast cancer, and 3.5 (95% CI = 1.1 to 12) for melanoma. Adjustment for other cancer risk factors did not alter these results. Heterozygotes did not differ from non-carriers with respect to cancer risk.

CONCLUSION

Individuals homozygous for the Leu33Pro polymorphism of the beta3 integrin subunit have an increased cancer risk.

Role of antiplatelet drugs in the prevention of cardiovascular events

Antiplatelet drugs have an established place in the prevention of vascular events in a variety of clinical conditions, such as myocardial infarction, stroke and cardiovascular death. Both European and American guidelines recommend the use of antiplatelet drugs in patients with established coronary heart disease and other atherosclerotic disease. In high-risk patients, such as those with post-acute myocardial infarction (AMI), ischaemic stroke or transient ischaemic attack, and in patients with stable or unstable angina, peripheral arterial occlusive disease or atrial fibrillation, antiplatelet treatment may reduce the risk of a serious cardiovascular event by approximately 25%, including reduction of non-fatal myocardial infarction by 1/6, non-fatal stroke by 1/4 and cardiovascular death by 1/6. Some data indicate that antiplatelet drugs may also have a role in primary prevention. In people who are aged over 65 years, or have hypertension, hypercholesterolaemia, diabetes, obesity or familial history of myocardial infarction at young age, aspirin may reduce both cardiovascular deaths and total cardiovascular events. Aspirin has been studied and used most extensively. It may exert its beneficial effect not only by acting on platelets, but also by other mechanisms, such as preventing thromboxane A2 (TXA2)-induced vasoconstriction or reducing inflammation. Indeed, experimental data show that low-dose aspirin may suppress vascular inflammation and thereby increase the stability of atherosclerotic plaque. Moreover, in human studies, aspirin seems to be most effective in those with elevated C-reactive protein levels. Vascular events, however, do occur despite aspirin administration. This may be due to platelet activation by pathways not blocked by aspirin, intake of drugs that interfere with aspirin effect or aspirin resistance. In the CAPRIE (Clopidogrel vs. Aspirin in Patients at Risk of Ischaemic Events) study, long-term clopidogrel administered to patients with atherosclerotic vascular disease was more effective than aspirin in reducing the combined risk of ischaemic stroke, myocardial infarction or vascular death. In the setting of coronary stenting, a double regimen including aspirin and ticlopidine or clopidogrel has proved more effective in the prevention of in-stent thrombosis than aspirin alone. Chronic oral administration of the inhibitors of platelet membrane receptor GP IIb/IIIa has been largely disappointing.

Kidney disease, genotype and the pathogenesis of vasculopathy

PURPOSE OF REVIEW

The two leading causes of end-stage renal disease in the United States are diabetes mellitus and hypertensive nephrosclerosis, accounting for over two-thirds of all cases. In many patients both diseases are associated with small- and large-vessel disease, commonly attributed to hypertension or accelerated atherosclerosis. Recent investigations, however, have suggested that renal large-vessel and microvascular disease may be independent contributors to progressive kidney failure.

RECENT FINDINGS

Although genes have not been definitely linked to renal vascular disease, population- and family-based epidemiology of kidney disease, segregation analysis of Pima and Caucasian families in which diabetic nephropathy is clustered, and the positional cloning of genes responsible for rare, familial glomerulosclerosis syndromes support the hypothesis that genes regulate the pathogenesis of renal disease. This review highlights developments in our current understanding of vasculopathy and its role in renal disease, and it summarizes evidence suggesting that genetic determinants for the vascular phenotype are associated with common causes of chronic renal failure.

SUMMARY

With the application of genomics and proteomics methodologies to drug discovery, the identification of renal susceptibility genes should identify new mechanisms of progressive renal disease pathogenesis and generate novel target molecules for the treatment of kidney disease.

Scientific and therapeutic advances in antiplatelet therapy

Over the past decade, the platelet has emerged as a pivotal entity in cardiovascular diseases. Indeed, the 'preeminence of the platelet' has spawned a variety of drugs that have been shown in large-scale randomized trials to improve patient outcomes in acute coronary syndromes and percutaneous revascularization procedures. Although the platelet was initially viewed only as a bystander in haemostasis, it is now evident that the platelet is in fact a key mediator of thrombosis as well as of inflammation. New insights at the cellular and genomic levels will probably generate novel drugs to inhibit platelet function more effectively and safely than previously possible.