Virus-Like Particles and Magnetic Microspheres Provide a Flexible and Sustainable Multiplexed Alphavirus Immunodiagnostic Platform

Abstract

AbstractThere is a pressing need for sustainable and sensitive immunodiagnostics for use in public health efforts to understand and combat the threat of endemic and emerging infectious diseases. We describe a novel approach to immunodiagnostics based on virus-like particles (VLPs) attached to magnetic beads. This flexible, innovative immunoassay system, based on the MAGPIX® platform, improves sensitivity by up to 2-logs and has faster sample-to-answer time over traditional methods. As a proof of concept, a retroviral-based VLP, that presents the Venezuelan equine encephalitis virus E1/E2 glycoprotein antigen on its surface, was generated and coupled to magnetic beads to create VLP-conjugated microspheres (VCMs). Using these VCMs, IgG and IgM antibodies were detectable in nonhuman primate (NHP) and human clinical serum samples at dilutions of 1 × 104 and greater. We extended the VCM methodology to two other New-World alphaviruses, eastern and western equine encephalitis viruses, as well as an Old-World alphavirus, Chikungunya virus, demonstrating the flexibility of this approach toward different VLP architectures. When multiplexed on the MAGPIX® platform, the VCMs provided differential diagnosis between Old-World and New-World alphaviruses and well as a route toward assessing the humoral response to both natural infection and vaccination. This VCM system will allow more rapid and efficient detection of endemic and emerging viral pathogens in human populations.