Timm Joerg, Roggendorf Michael
University of Essen, Institute of Virology, Hufelandst 55, Essen 45122, Germany.
World J Gastroenterol. 2007 Sep 28;13(36):4808-17. doi: 10.3748/wjg.v13.i36.4808.
With approximately 3% of the world's population (170 million people) infected with the hepatitis C virus (HCV), the WHO has declared HCV a global health problem. Upon acute infection about 50%-80% of subjects develop chronic hepatitis with viral persistence being at risk to develop liver cirrhosis and hepatocellular carcinoma. One characteristic of HCV is its enormous sequence diversity, which represents a significant hurdle to the development of both effective vaccines as well as to novel therapeutic interventions. Due to a polymerase that lacks a proofreading function HCV presents with a high rate of evolution, which enables rapid adaptation to a new environment including an activated immune system upon acute infection. Similarly, novel drugs designed to specifically inhibit viral proteins will face the potential problem of rapid selection of drug resistance mutations. This review focuses on the sequence diversity of HCV, the driving forces of evolution and the impact on immune control and treatment response. An important feature of any therapeutic or prophylactic intervention will be an efficient attack of a structurally or functionally important region in the viral protein. The understanding of the driving forces, but also the limits of viral evolution, will be fundamental for the design of novel therapies.
全球约3%的人口(1.7亿人)感染了丙型肝炎病毒(HCV),因此世界卫生组织已将HCV列为一个全球健康问题。急性感染时,约50%-80%的患者会发展为慢性肝炎,病毒持续存在会有发展为肝硬化和肝细胞癌的风险。HCV的一个特点是其序列具有极大的多样性,这对开发有效的疫苗以及新型治疗干预措施都构成了重大障碍。由于HCV的聚合酶缺乏校对功能,其进化速度很快,这使得它能够在急性感染时迅速适应新环境,包括激活的免疫系统。同样,旨在特异性抑制病毒蛋白的新型药物也将面临耐药突变快速产生的潜在问题。本综述聚焦于HCV的序列多样性、进化驱动力以及对免疫控制和治疗反应的影响。任何治疗或预防干预措施的一个重要特征将是对病毒蛋白中结构或功能重要区域的有效攻击。理解病毒进化的驱动力以及其局限性,对于设计新型疗法至关重要。