Open Access
Novel VKORC1 Mutations Associated with Warfarin Sensitivity
Author(s) -
Baniasadi Shadi,
Beizaee Samira,
Kazemi Bahram,
Behzadnia Neda,
Shafaghi Bijan,
Bandehpour Mojgan,
Fahimi Fanak
Publication year - 2011
Publication title -
cardiovascular therapeutics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.818
H-Index - 46
eISSN - 1755-5922
pISSN - 1755-5914
DOI - 10.1111/j.1755-5922.2009.00107.x
Subject(s) - vkorc1 , vitamin k epoxide reductase , medicine , warfarin , frameshift mutation , anticoagulant , exon , gastroenterology , pharmacology , cyp2c9 , atrial fibrillation , genetics , gene , biology , cytochrome p450 , metabolism
Warfarin is widely used anticoagulant drug for the prophylaxis and treatment of venous and arterial thromboembolic disorders and exerts its anticoagulant effect by inhibiting the vitamin K epoxide reductase. To determine the impact of genetic variants of the vitamin K epoxide reductase complex subunit 1 gene (VKORC1) on the anticoagulant response to warfarin, polymorphisms in exon 1, exon 3, and 3’‐untranslated region (3’ UTR) were assessed. Results: Sixty patients (34 males and 26 females) with stable INR (2–3) were selected from cardiology and anticoagulant clinic. Three VKORC1 frameshift mutations were detected. The first frameshift mutation was nucleotide deletion (91delCC) in exon 3 (1 patient). The second variation was nucleotide addition (51addCT) in exon 3 (2 patients). All the 3 patients reported bleeding during warfarin use, while no other bleeding was reported during the study period. Warfarin maintenance dose was significantly different between 3 patients with mutations and patients without mutations. The use of a fixed‐dose warfarin for all patients and in range INR may not be sufficient for warfarin monitoring. Many factors including unknown ones may also play an important role in highly variable response among patients. Our data for the first time, suggested a new possible call for screening to reduce the risk of bleeding and guide for dosing.