PLoS ONE (Mar 2011)

Design of a protective single-dose intranasal nanoparticle-based vaccine platform for respiratory infectious diseases.

  • Bret D Ulery,
  • Devender Kumar,
  • Amanda E Ramer-Tait,
  • Dennis W Metzger,
  • Michael J Wannemuehler,
  • Balaji Narasimhan

DOI
https://doi.org/10.1371/journal.pone.0017642
Journal volume & issue
Vol. 6, no. 3
p. e17642

Abstract

Read online

Despite the successes provided by vaccination, many challenges still exist with respect to controlling new and re-emerging infectious diseases. Innovative vaccine platforms composed of adaptable adjuvants able to appropriately modulate immune responses, induce long-lived immunity in a single dose, and deliver immunogens in a safe and stable manner via multiple routes of administration are needed. This work describes the development of a novel biodegradable polyanhydride nanoparticle-based vaccine platform administered as a single intranasal dose that induced long-lived protective immunity against respiratory disease caused by Yesinia pestis, the causative agent of pneumonic plague. Relative to the responses induced by the recombinant protein F1-V alone and MPLA-adjuvanted F1-V, the nanoparticle-based vaccination regimen induced an immune response that was characterized by high titer and high avidity IgG1 anti-F1-V antibody that persisted for at least 23 weeks post-vaccination. After challenge, no Y. pestis were recovered from the lungs, livers, or spleens of mice vaccinated with the nanoparticle-based formulation and histopathological appearance of lung, liver, and splenic tissues from these mice post-vaccination was remarkably similar to uninfected control mice.