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Keywords:

  • deep venous thrombosis;
  • EPCR;
  • haplotypes

Summary.

Background: Binding of protein C (PC) to the endothelial cell PC receptor (EPCR) stimulates PC activation by increasing the affinity of PC for the thrombin-thrombomodulin complex. A soluble form of this receptor (sEPCR) circulates in plasma and inhibits both PC activation and APC anticoagulant activity. Objectives: The aim of this study was to investigate whether variations in the EPCR gene or plasma sEPCR levels are risk factors for deep venous thrombosis (DVT). Patients/methods: In a large case-control study, the Leiden Thrombophilia Study (LETS), sEPCR levels were measured by ELISA. All subjects were genotyped for three haplotype-tagging SNPs, enabling us to detect all four common haplotypes of the EPCR gene. Results: The distribution of sEPCR levels in the control population was trimodal and was genetically controlled by haplotype 3 (H3). This haplotype explained 86.5% of the variation in sEPCR levels. Carriers of two H3 alleles had higher sEPCR levels (439 ng mL−1) than carriers of one H3 allele (258 ng mL−1), which had higher levels than non-H3 carriers (94 ng mL−1). Haplotype 4 was associated with a slightly increased risk (OR = 1.4, 95%CI:1.0–2.2). The risk of subjects with sEPCR levels in the top quartile (≥ 137 ng mL−1) was increased compared to that of subjects in the first quartile (< 81 ng mL−1), but since there was no dose–response effect, it is most likely that low sEPCR levels reduce the risk of DVT. Conclusions: Our data do not suggest a strong association between EPCR haplotypes and thrombosis risk, but low sEPCR levels appear to reduce the risk of DVT.