AI Article Synopsis
- APC resistance is a significant risk factor for venous thrombosis, particularly influenced by the factor V (FV) Leiden mutation, which disrupts the inactivation of FVa and FVIIIa by activated protein C (APC).
- Pseudo-homozygous APC resistance occurs when individuals inherit FV Leiden and FV deficiency on different alleles, resulting in severe APC resistance and reduced FV levels due to the lack of the non-Leiden allele.
- Research findings demonstrate that the normal FV allele plays a crucial role in regulating APC resistance, illustrating that those with pseudo-homozygous conditions have a higher thrombotic risk compared to heterozygotes.
Article Abstract
Background: Functional defects of the protein C pathway, detectable in plasma as activated protein C (APC) resistance, are a prevalent risk factor for venous thrombosis. The factor V (FV) Leiden mutation causes APC resistance by interfering with the APC-mediated inactivation of both FVa and FVIIIa. Co-inheritance of FV Leiden and quantitative FV deficiency on different alleles, a rare condition known as pseudo-homozygous APC resistance, is associated with pronounced APC resistance and 50% reduced FV levels, because of non-expression of the non-Leiden FV allele.
Objectives: The role of normal FV in modulating the APC resistance phenotype in carriers of FV Leiden was investigated in patients with pseudo-homozygous APC resistance and in model systems.
Patients/methods: Four functional plasma assays probing both components of APC resistance (susceptibility of FVa to APC and cofactor activity of FV in FVIIIa inactivation) were employed to compare seven clinically and genetically characterized FV Leiden pseudo-homozygotes to 30 relatives with different FV genotypes (including 12 FV Leiden heterozygotes and seven carriers of FV deficiency) and to 32 unrelated FV Leiden homozygotes.
Results And Conclusions: All assays consistently indicated that FV Leiden pseudo-homozygotes are significantly more APC-resistant than heterozygotes and indistinguishable from homozygotes. Thrombin generation measurements in FV-deficient plasma reconstituted with purified normal FV and FV Leiden confirmed these observations and showed that the expression of the normal FV allele is an important modulator of APC resistance in FV Leiden heterozygotes. These findings provide an explanation for the higher thrombotic risk of FV Leiden pseudo-homozygotes when compared with heterozygotes.
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| http://dx.doi.org/10.1111/j.1538-7836.2005.01634.x | DOI Listing |
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