Phase II STTR development of an intranasal/oral Spirulina-based PfCSP malaria vaccine.
Lumen Bioscience, Inc., Seattle WA
Investigators
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Abstract
ABSTRACT Vaccination represents the single most effective and costâeffective medical intervention devised to date, saving lives and reducing morbidity and disability for billions of humans. Despite the early success of the oral polio vaccine, most vaccines are delivered parenterally, and as such are associated with pain, nonâcompliance, biohazardous medical waste and the need for trained medical personnel. Moreover, strict requirements for production, transport and storage logistics (the âcold chainâ) are costly and present substantial logistical challenges. Mucosal (oral, intranasal, etc.) vaccine strategies eliminate or significantly reduce these drawbacks. The potential use of Arthrospira platensis (commonly called spirulina) as an oral vaccine delivery platform is highly attractive, given its safety profile, rich nutritional content and wide acceptance as a human food source. Lumen Bioscience has developed unique, patented technology to genetically engineer spirulina to express heterologous proteins. Lumen Bioscience's spirulina vaccine platform consists of recombinant strains designed to express viral capsid proteins that assemble and form durable highâorder complexes commonly called virusâlike particles (VLPs). Parenterallyâadministered VLPâbased vaccines have been used in humans for prevention of infections with human papilloma virus, hepatitis B virus, and malaria parasites. Intranasally and orallyâ administered spirulinaâexpressed VLPs have been engineered to efficiently express pathogenâderived antigens inserted into the exteriorâfacing VLP domains. Here, VLPs bearing epitopes derived from Plasmodium falciparum circumsporozoite protein (CSP) in spirulina will be administered intranasally and orally to mice and nonâhuman primates. This approach has been shown to induce systemic antiâCSP IgG, which confers protection against sporozoite challenge in mouse models. This project aims to optimize and develop the intranasal/oral spirulina vaccine model as a safe and effective malaria vaccine using mice and nonâhuman primate models to enable a future transition to the clinic.
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