Ajmi Marwa, Omezzine Asma, Achour Slim, Amor Dorra, Hamdouni Haithem, Ismaïl Fatma Ben Fredj, Rejeb Nabila Ben, Kechrid Chedia Laouani, Boughzela Essia, Bouslama Ali
LR12SP11, Biochemistry Department, Sahloul University Hospital, Sousse, Tunisia.
Higher Institute of Biotechnology of Monastir, University of Monastir, Monastir, Tunisia.
Eur J Clin Pharmacol. 2018 Jun;74(6):711-722. doi: 10.1007/s00228-018-2423-7. Epub 2018 Feb 26.
We aimed to study potential variables involved in interindividual variability to acenocoumarol (AC) response in order to establish a pharmacogenetic algorithm (PA) that includes clinical and genetic factors to predict adequate AC dose to stabilize anticoagulation in a cohort of Tunisian patients.
Genotyping of the CYP2C9, VKORC1, CYP4F2, and CALU polymorphisms was conducted on 246 patients using PCR-RFLP technique. AC normalized maintenance dose (NMD): ((mean maintenance dose/international normalized ratio (INR)) equilibrium) was calculated. The statistical study was carried out with SPSS V20.
A significant correlation was found between age, BMI, and daily AC dose (r = - 0.397; p < 0.001 and r = 0.215; p = 0.001, respectively). The carriers of mutated alleles CYP2C92 or CYP2C93 or VKORC1 haplotypes (H1 and H7) were associated with AC hyper-sensibility. After adjustment to potential covariates, these patients presented supra-therapeutic INR during treatment period and needed low AC dose (ORs* = 0.28 [0.06-0.60], p = 0.004; ORs* = 0.12 [0.04-0.05], p < 0.001; ORs* = 0.45 [0.24-0.84], p = 0.01; and ORs* = 0.28 [0.06-0.98], p = 0.049, respectively). However, carriers of VKORC1 haplotypes (H3 and H12) or mutated alleles CYP4F2 (rs2108622) or CALU (rs1043550) tend to resist to treatment, hence long period of therapy initiation, and must be treated with high AC dose (ORs* = 2.67 [81.12-5.91], p = 0.013; ORs* = 8.76 [1.07-76.26], p = 0.019; ORs* = 3.12 [1.01-9.63], p = 0.047; and ORs* = 3.96 [1.41-11.09], p = 0.009, respectively). A final multivariate regression model explained 48.1% of the global interindividual variability in AC dose requirement.
The PA demonstrated that VKORC1 and CYP2C9 polymorphisms contribution was more important than clinical factors. Applying the PA would allow dose adjustment to treat patients in a personalized manner.
我们旨在研究与醋硝香豆素(AC)反应个体间变异性相关的潜在变量,以建立一种药物遗传学算法(PA),该算法纳入临床和遗传因素,用于预测一组突尼斯患者稳定抗凝所需的合适AC剂量。
采用聚合酶链反应-限制性片段长度多态性(PCR-RFLP)技术,对246例患者进行CYP2C9、VKORC1、CYP4F2和CALU基因多态性基因分型。计算AC标准化维持剂量(NMD):((平均维持剂量/国际标准化比值(INR))平衡)。使用SPSS V20进行统计学研究。
年龄、体重指数(BMI)与每日AC剂量之间存在显著相关性(r分别为-0.397;p<0.001和r为0.215;p=0.001)。携带CYP2C92或CYP2C93突变等位基因或VKORC1单倍型(H1和H7)与AC高敏感性相关。在对潜在协变量进行调整后,这些患者在治疗期间出现治疗性INR升高,需要低AC剂量(ORs分别为0.28[0.06-0.60],p=0.004;ORs为0.12[0.04-0.05],p<0.001;ORs为0.45[0.24-0.84],p=0.01;ORs为0.28[0.06-0.98],p=0.049)。然而,携带VKORC1单倍型(H3和H12)或CYP4F2(rs2108622)或CALU(rs1043550)突变等位基因的患者往往对治疗有抵抗性,因此治疗起始时间长,必须用高AC剂量治疗(ORs分别为2.67[81.12-5.91],p=0.013;ORs为8.76[1.07-76.26],p=0.019;ORs为3.12[1.01-9.63],p=0.047;ORs为3.96[1.41-11.09],p=0.009)。最终的多变量回归模型解释了AC剂量需求总体个体间变异性的48.1%。
PA表明VKORC1和CYP2C9基因多态性的贡献比临床因素更重要。应用PA将允许以个性化方式调整剂量来治疗患者。
