Abstract
Background
To develop a novel treatment strategy for hepatitis B virus infection, a major cause of liver chirosis and cancer, we aimed to make human monoclonal antibodies inhibiting RNase H activity of P protein playing in important role in HBV replication. In this regard, phage display technology was employed and demonstrated as an efficient cloning method for human monoclonal antibody. So this study analysed the usability of human monoclonal antibody as protein based gene therapy.
Methods
RNase H of HBV was expressed as fusion protein with maltose binding protein and purified with amylose resin column. Single chain Fv (scFv) phage antibody library was constructed by PCR cloning using total RNAs of PBMC from 50 healthy volunteers. Binders to RNase H were selected with BIAcore 2000 from the constructed library, and purified as soluble antibody fragment. The affinity and sequences of selected antibody fragments were analyzed with BIAcore and ABI automatic sequencer, respectively. And finally RNase H activity inhibiting assay was carried out.
Results
Recombinant RNase H expressed in E. coli exhibited an proper enzyme activity. Naive library of 4.46 × 109 cfu was screened by BIAcore 2000. Two clones, RN41 and RN56, showed affinity of 4.5 × 10-7 M and 1.9 × 10-7 M, respectively. But RNase H inhibiting activity of RN41 was higher than that of RN56.