Does coumarin therapy cause severe bleeding and reduced FIX activity in patients with missense mutations at Ala-10 in the factor IX propeptide?
Patients with uncommon bleeding patterns on coumarin therapy despite therapeutic INR should be tested for FIX activity and APTT, as mutations in the FIX propeptide can cause severe FIX deficiency.
Bleeding complications are the most common and unwanted side-effect of oral anticoagulant therapy. We report three patients in whom mutations in the factor IX (FIX) propeptide were found to cause severe bleeding during coumarin therapy. Strikingly, the bleeding occurred within the therapeutic ranges of the prothrombin time (PT) and international normalized ratio (INR). In all three patients coumarin therapy caused an unusually selective decrease of FIX activity (FIX:C) to levels below 1-3%. Upon withdrawal of coumarin, FIX:C increased to subnormal or normal values of 55%, 85% and 125%, respectively. Analysis of the FIX gene revealed two different missense mutations affecting the Ala-10 residue in the propeptide coding region: AlaGCC to ValGTC in two patients and AlaGCC to ThrACC in one patient. No further mutation was detected by screening 195 random blood donors for mutations at Ala-10, thus excluding a frequent polymorphism at this position. The mutation in the FIX propeptide at a position which is essential for the carboxylase recognition site causes a reduced affinity of the carboxylase enzyme to the propeptide. This effect leads to an impaired carboxylase epoxidase reaction which is decisively triggered by the vitamin K concentration. Determination of FIX and APTT in addition to PT and INR is therefore recommended in coumarin-treated patients with an uncommon bleeding pattern.
Oldenburg et al. (Tue,) studied this question.