Burioni R, Plaisant P, Manzin A, Rosa D, Delli Carri V, Bugli F, Solforosi L, Abrignani S, Varaldo P E, Fadda G, Clementi M
Institute of Microbiology, Facoltà di Medicina, Università Cattolica del Sacro Cuore, Roma, Italy.
Hepatology. 1998 Sep;28(3):810-4. doi: 10.1002/hep.510280331.
Demonstration of antibodies inhibiting key viral functions is the basis for the design of an effective vaccine. Dissection of the human antibody response by repertoire cloning may be a powerful means to address this issue. In this study, a panel of human monoclonal recombinant Fab fragments specific for hepatitis C virus (HCV) E2 envelope protein was generated. The selection procedure was designed to select for cross-genotype reactive antibodies. Sequences coding five different human recombinant Fabs specific for the HCV/E2 protein were cloned and characterized. The ability of the cloned antibody fragments to inhibit adhesion of recombinant envelope E2 protein to target cells was assayed. While affinity of the different antibody fragments appeared similar, activity in inhibiting E2 binding to target cells varied considerably from one Fab fragment to another. Two Fabs were not able to inhibit E2 binding at high concentration (40 microg/mL), while three other Fab clones were active in neutralizing 50% of the E2 binding at concentrations ranging from 3 to 0.35 microg/mL.
证明抗体抑制关键病毒功能是设计有效疫苗的基础。通过库克隆剖析人类抗体反应可能是解决这一问题的有力手段。在本研究中,产生了一组针对丙型肝炎病毒(HCV)E2包膜蛋白的人源单克隆重组Fab片段。选择程序旨在筛选出具有跨基因型反应性的抗体。克隆并鉴定了编码五种不同的针对HCV/E2蛋白的人源重组Fab的序列。测定了克隆的抗体片段抑制重组包膜E2蛋白与靶细胞粘附的能力。虽然不同抗体片段的亲和力似乎相似,但不同Fab片段抑制E2与靶细胞结合的活性差异很大。两个Fab在高浓度(40μg/mL)下不能抑制E2结合,而其他三个Fab克隆在浓度为3至0.35μg/mL时能够中和50%的E2结合。
