Department of Medical Sciences Clinical and Experimental, University of Udine, Italy.
Hepatology. 2012 Nov;56(5):1641-50. doi: 10.1002/hep.25848. Epub 2012 Oct 14.
Vitamin D deficiency seems to predict the unsuccessful achievement of sustained viral response (SVR) after antiviral treatment in hepatitis C virus (HCV) difficult-to-treat genotypes. Vitamin D binding protein (GC) gene polymorphisms are known to influence vitamin D levels. This study was performed to assess whether the interaction between basal circulating vitamin D and the GC polymorphism plays a role in influencing the rate of antiviral responses in patients affected by chronic hepatitis C. In all, 206 HCV patients treated with a combination therapy of pegylated (PEG)-interferon plus ribavirin were retrospectively evaluated. GC rs7041 G>T, GC rs4588 C>A, and IL-28B rs12979860 C>T polymorphisms were genotyped. Frequencies of GC rs7041 G>T and rs4588 C>A polymorphisms were: G/G = 64 (31.1%), G/T = 100 (48.5%), T/T = 42 (20.4%) and C/C = 108 (52.4%), C/A = 84 (40.8%), A/A = 14 (6.8%). Patients were divided into those carrying ≥3 major alleles (wildtype [WT]+: G-C/G-C, G-C/T-C, G-C/G-A, N = 100) and the remaining (WT-: G-C/T-A, T-A/T-C, T-A/T-A, T-C/T-C, N = 106). Four groups were identified: vitamin D ≤20 ng/mL and WT-, vitamin D ≤20 and WT+, vitamin D >20 and WT-, vitamin D >20 and WT+. In difficult-to-treat HCV genotypes the proportion of patients achieving SVR significantly increased with a linear trend from the first to the last group: 6/25 (24.0%), 9/24 (37.5%), 12/29 (41.4%), 19/29 (65.5%) (P = 0.003). At multivariate analysis, having basal vitamin D >20 ng/mL plus the carriage of GC WT+ was found to be an independent predictor of SVR (odds ratio 4.52, P = 0.015).
In difficult-to-treat HCV genotypes, simultaneous pretreatment normal serum vitamin D levels and the carriage of GC-globulin WT isoform strongly predicts the achievement of SVR after PEG-interferon plus ribavirin antiviral therapy.
维生素 D 缺乏似乎预示着丙型肝炎病毒 (HCV) 难治基因型患者在抗病毒治疗后无法持续病毒学应答 (SVR)。维生素 D 结合蛋白 (GC) 基因多态性已知会影响维生素 D 水平。本研究旨在评估基础循环维生素 D 与 GC 多态性之间的相互作用是否会影响慢性丙型肝炎患者抗病毒反应的速度。共回顾性评估了 206 例接受聚乙二醇 (PEG)-干扰素联合利巴韦林联合治疗的 HCV 患者。GC rs7041 G>T、GC rs4588 C>A 和 IL-28B rs12979860 C>T 多态性进行了基因分型。GC rs7041 G>T 和 rs4588 C>A 多态性的频率分别为:G/G = 64(31.1%)、G/T = 100(48.5%)、T/T = 42(20.4%)和 C/C = 108(52.4%)、C/A = 84(40.8%)、A/A = 14(6.8%)。患者分为携带≥3 个主要等位基因(野生型 [WT]+:G-C/G-C、G-C/T-C、G-C/G-A,N=100)和其余(WT-:G-C/T-A、T-A/T-C、T-A/T-A、T-C/T-C,N=106)。确定了四个组:维生素 D≤20ng/mL 和 WT-、维生素 D≤20 和 WT+、维生素 D>20 和 WT-、维生素 D>20 和 WT+。在难治性 HCV 基因型中,随着从第一组到最后一组的线性趋势,达到 SVR 的患者比例显著增加:6/25(24.0%)、9/24(37.5%)、12/29(41.4%)、19/29(65.5%)(P=0.003)。多变量分析显示,基础维生素 D>20ng/mL 加上 GC WT+的携带是 SVR 的独立预测因子(比值比 4.52,P=0.015)。
在难治性 HCV 基因型中,同时存在预处理正常血清维生素 D 水平和 GC-球蛋白 WT 同工型的携带强烈预测 PEG-干扰素联合利巴韦林抗病毒治疗后 SVR 的获得。
