Division of Infectious Diseases and Geographic Medicine, Stanford University School of Medicine, Stanford, California 94305-5187, USA.
J Infect Dis. 2010 Jul 1;202(1):65-74. doi: 10.1086/653080.
We recently identified a compound, clemizole hydrochloride, that inhibits NS4B's RNA binding and hepatitis C virus (HCV) replication. Although significant, clemizole's antiviral effect is moderate (50% effective concentration of 8 microM against an HCV genotype 2a clone). We hypothesized that the combination of clemizole with other anti-HCV agents can increase the antiviral effect over that achieved with each drug alone and could also decrease the emergence of viral resistance.
Luciferase reporter-linked HCV replication assays were used to study the antiviral effects of drug combinations that included clemizole. Data were analyzed using Loewe additivity and Bliss independence models for synergy, and resistance studies were performed using HCV colony formation assays.
Clemizole's antiviral effect was highly synergistic with the HCV protease inhibitors SCH503034 and VX950, without toxicity. In contrast, combinations of clemizole with either interferon, ribavirin, or the nucleoside (NM283) and nonnucleoside (HCV796) HCV polymerase inhibitors were additive. Furthermore, combination of clemizole with SCH503034 decreased the frequency of drug-resistant mutants, compared with treatment with either drug alone. Finally, no cross-resistance to clemizole of SCH503034-resistant mutants (or vice versa) was observed.
Clemizole can yield high-level synergy with the protease inhibitor class. Inclusion of clemizole in future anti-HCV cocktails can represent an attractive paradigm for increasing current virologic response rates.
我们最近发现一种名为盐酸克立咪唑的化合物,它可以抑制 NS4B 的 RNA 结合并抑制丙型肝炎病毒 (HCV) 的复制。尽管效果显著,但克立咪唑的抗病毒作用中等(对 HCV 基因型 2a 克隆的 50%有效浓度为 8μM)。我们假设克立咪唑与其他抗 HCV 药物联合使用可以增加抗病毒效果,超过每种药物单独使用的效果,并且还可以降低病毒耐药性的出现。
使用 luciferase 报告基因 HCV 复制测定来研究包括克立咪唑在内的药物组合的抗病毒作用。使用 Loewe 加性和 Bliss 独立性模型分析数据,以评估协同作用,并使用 HCV 集落形成测定进行耐药性研究。
克立咪唑与 HCV 蛋白酶抑制剂 SCH503034 和 VX950 联合使用具有高度协同作用,且无毒性。相比之下,克立咪唑与干扰素、利巴韦林或核苷(NM283)和非核苷(HCV796)HCV 聚合酶抑制剂的组合为相加作用。此外,与单独使用任何一种药物相比,克立咪唑与 SCH503034 联合使用降低了耐药突变体的出现频率。最后,未观察到对克立咪唑耐药的 SCH503034 突变体(或反之亦然)的交叉耐药性。
克立咪唑可以与蛋白酶抑制剂类药物产生高水平的协同作用。在未来的抗 HCV 鸡尾酒疗法中包含克立咪唑可以代表一种有吸引力的范例,可以提高当前的病毒学反应率。