High-Throughput Growth Inhibition Assays for Antimalarial Protein Drugs

Brandon DeKosky of the Massachusetts General Hospital, with Carole Long of the National Institute of Allergy and Infectious Diseases, both in the U.S., will develop a high-throughput, microfluidic screening platform to identify antibodies active against blood-stage malaria parasites. The platform is based on individual droplets containing a mix of Plasmodium parasite-infected and uninfected red blood cells together with mammalian cells secreting monoclonal antibodies. Each droplet serves as a parasite neutralization assay: antibodies that block parasite invasion of new red blood cells limit growth of the parasite population, and this is readily quantified using parasite-specific protein activity. With miniature droplets assayed in parallel, mammalian cells expressing a library of monoclonal antibodies can be rapidly screened for antimalarial activity.