Litcius/Paper detail

Quantitative evaluation of protective antibody response induced by hepatitis E vaccine in humans

Guiping Wen, Linling He, Zimin Tang, Siling Wang, Xu Zhang, Yuanzhi Chen, Xiaohe Lin, Chang Liu, Jiaxin Chen, Ying Dong, Zihao Chen, Ying-Bin Wang, Wenxin Luo, Shoujie Huang, Shaowei Li, Jun Zhang, Zizheng Zheng, Jiang Zhu, Ningshao Xia

2020Nature Communications51 citationsDOIOpen Access PDF

Abstract

Efficacy evaluation through human trials is crucial for advancing a vaccine candidate to clinics. Next-generation sequencing (NGS) can be used to quantify B cell repertoire response and trace antibody lineages during vaccination. Here, we demonstrate this application with a case study of Hecolin®, the licensed vaccine for hepatitis E virus (HEV). Four subjects are administered the vaccine following a standard three-dose schedule. Vaccine-induced antibodies exhibit a high degree of clonal diversity, recognize five conformational antigenic sites of the genotype 1 HEV p239 antigen, and cross-react with other genotypes. Unbiased repertoire sequencing is performed for seven time points over six months of vaccination, with maturation pathways characterize for a set of vaccine-induced antibodies. In addition to dynamic repertoire profiles, NGS analysis reveals differential patterns of HEV-specific antibody lineages and highlights the necessity of the long vaccine boost. Together, our study presents a quantitative strategy for vaccine evaluation in small-scale human studies.

Topics & Concepts

RepertoireVirologyBiologyAntibodyVaccinationVaccination scheduleAntibody RepertoireAntigenGenotypeAntibody responseImmunologyComputational biologyGeneticsImmunizationGeneAcousticsPhysicsHepatitis Viruses Studies and EpidemiologyViral gastroenteritis research and epidemiologyHepatitis B Virus Studies