Theoretical Biology and Biophysics, Los Alamos National Laboratory, Los Alamos, NM 87545, USA.
Theoretical Biology and Biophysics, Los Alamos National Laboratory, Los Alamos, NM 87545, USA; Department of Medicine, University of Illinois at Chicago, IL 60612, USA.
J Hepatol. 2012 May;56(5):1019-1024. doi: 10.1016/j.jhep.2011.12.012. Epub 2012 Jan 13.
BACKGROUND & AIMS: Legalon® SIL (SIL) is a chemically hydrophilized version of silibinin that has exhibited high antiviral effectiveness against hepatitis C virus (HCV). Its main mode of action (MOA) remains unclear, with contradicting in vitro studies supporting either suppression of entry and cell-to-cell spread or suppression of viral RNA synthesis as the main MOA. We sought to provide new insights into SIL's MOA in HCV genotype-1/4 patients receiving intravenous SIL monotherapy for 7 days via mathematical modeling.
Changes in HCV RNA in 25 patients receiving 10, 15, or 20mg/kg/day of SIL were analyzed and modeled using viral kinetic methods.
In 15 patients, the virus declined in a biphasic manner, in which a sharp drop between days 0 and 2 was followed by a slower second phase of decline. In 10 patients, the initial decline was weaker and the virus declined in a single phase over the 7-day period. The blocking production effectiveness, ε, was dose-dependent with mean ε=0.49 and 0.89 in the 10 or 15 and 20mg/kg/day dosing groups, respectively (p=0.02). The effectiveness of blocking viral infection, η, was estimated as 0.60 with no significant differences across dosing groups. For all patients, the mean rate of viral load decline measured between days 2 and 7 was high (0.3 log(10)IU/ml/day), i.e., 4-fold higher than typically observed during the 2nd phase of (pegylated)-interferon-α±ribavirin treatment.
Modeling HCV kinetics in vivo suggests that SIL may block both viral infection and viral production/release with its main dose-dependent effect being blocking viral production/release.
Legalon® SIL(SIL)是水飞蓟宾的化学亲水版本,对丙型肝炎病毒(HCV)表现出很高的抗病毒效果。其主要作用机制(MOA)仍不清楚,体外研究相互矛盾,支持其主要作用机制是抑制进入和细胞间传播,或者抑制病毒 RNA 合成。我们试图通过数学建模,为接受静脉注射 SIL 单药治疗 7 天的 HCV 基因型 1/4 患者提供 SIL 的 MOA 的新见解。
用病毒动力学方法分析和建模 25 例接受 SIL 10、15 或 20mg/kg/天治疗的患者的 HCV RNA 变化。
在 15 例患者中,病毒呈双相下降,第 0 天和第 2 天之间急剧下降,然后进入第二阶段缓慢下降。在 10 例患者中,初始下降较弱,病毒在 7 天内呈单相下降。阻断病毒产生的有效率ε与剂量呈依赖性,在 10 或 15mg/kg/天剂量组中,平均ε值分别为 0.49 和 0.89(p=0.02)。阻断病毒感染的有效率η估计为 0.60,各组之间无显著差异。对于所有患者,第 2 天至第 7 天之间测量的病毒载量下降率很高(0.3 log10IU/ml/天),即比聚乙二醇干扰素-α±利巴韦林治疗的第 2 阶段通常观察到的速度高 4 倍。
体内 HCV 动力学建模表明,SIL 可能同时阻断病毒感染和病毒产生/释放,其主要剂量依赖性作用是阻断病毒产生/释放。