mSphere (Jun 2022)

Development of an Enzyme-Linked Immunosorbent Assay for Detection of the Native Conformation of Enterovirus A71

  • Natalie J. Kingston,
  • Keith Grehan,
  • Joseph S. Snowden,
  • Mona Shegdar,
  • Helen Fox,
  • Andrew J. Macadam,
  • David J. Rowlands,
  • Nicola J. Stonehouse

DOI
https://doi.org/10.1128/msphere.00088-22
Journal volume & issue
Vol. 7, no. 3

Abstract

Read online

ABSTRACT Enterovirus A71 (EVA71) is a medically important virus that is commonly associated with hand, foot, and mouth disease (HFMD). It is responsible for periodic outbreaks, resulting in significant economic impact and loss of life. Vaccination offers the potential to control future outbreaks, and vaccine development has been increasingly the focus of global research efforts. However, antigenic characterization of vaccine candidates is challenging because there are few tools to characterize the different antigenic forms of the virus. As with other picornaviruses, EVA71 virions exist in two antigenic states, native (NAg) and expanded (HAg). It is likely that the composition of vaccines, in terms of the proportions of NAg and HAg, will be important for vaccine efficacy and batch-to-batch consistency. This paper describes the development of a single-chain fused variable (scFv) domain fragment and the optimization of a sandwich enzyme-linked immunosorbent assay (ELISA) for the specific detection of the NAg conformation of EVA71. NAg specificity of the scFv was demonstrated using purified EVA71, and conversion of NAg to HAg by heating resulted in a loss of binding. We have thus developed an effective tool for characterization of the specific antigenic state of EVA71. IMPORTANCE EVA71 is a medically important virus that is commonly associated with HFMD, resulting in periodic outbreaks, significant economic impact, and loss of life. Vaccination offers the potential to curtail future outbreaks, and vaccine development has been increasingly the focus of global research efforts. However, antigenic characterization of vaccine candidates is challenging because there are very limited effective tools to characterize the different antigenic forms of EV71. As with other picornaviruses, EVA71 virions exist in two antigenic states, native and expanded. This paper describes the development of an scFv and the optimization of a sandwich ELISA for the specific detection of the native conformation of EVA71 as an effective tool for characterization of the specific antigenic state of EVA71.

Keywords