Last Updated: 02/12/2024

Efficient and Low-cost Malaria Vaccine using Plant Virus Nanoparticles

Objectives

The project team sought to determine whether using Papaya mosaic virus nanoparticles as an adjuvant in a malaria vaccine would result in better protection against the disease when compared to alum, the adjuvant most often used in vaccines.

Principal Institution

Laval University (UL), Canada

Principal Investigators / Focal Persons

Dave Richard

Partner Institutions

International Center for Genetic Engineering and Biotechnology (ICGEB), India

Rationale and Abstract

Malaria vaccine development has been hindered by the sheer complexity of the parasite and its life cycle, extensive antigenic variation, and a poor understanding of the interaction between P. falciparum (the malaria pathogen) and the human immune system. Despite years of intensive efforts using conventional approaches to vaccine design, there is currently no effective vaccine against malaria therefore new approaches are crucial. The “Plant virus-based nanoparticles as an adjuvant for the development of an efficient and low-cost vaccine against malaria” project aims to use nanoparticles derived from papaya mosaic virus (PapMV-NP) as an adjuvant to develop a novel malaria vaccine that would be safe, efficacious and low-cost.

External reference

Grand Challenges Canada - Project details

Themes

Enabling Technologies & Assays
Vaccines

Date

Jan 2012 — Jul 2013

Funding Details

Grand Challenges Canada, Canada

Project Site

Canada
India

Deep Dives

Nanotechnology to combat malaria