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Protective Effects of Malaria Vaccine That Has Completed Phase 3 Trials

by Dr. Trupti Shirole on October 22, 2015 at 4:37 PM

Malaria is a global health threat responsible for hundreds of millions of infections and more than half a million deaths every year in tropical and subtropical regions of the world. The disease is caused by intracellular protozoan parasites from the genus Plasmodium, which are transmitted to human beings by mosquito vectors. RTS,S is the first malaria vaccine candidate to complete phase 3 trials.


A team of researchers has used cutting edge genomic methods to uncover key biological insights that help explain the protective effects of the world's most advanced malaria vaccine candidate, RTS,S/AS01 (RTS,S). Applying highly sensitive genome sequencing technology to more patient blood samples than previously tested, researchers were able to determine that genetic variation in the protein targeted by RTS,S influences the vaccine's ability to ward off malaria in young children.

Dyann Wirth, who along with Peter Gilbert of Fred Hutchinson Cancer Research Center, led the study that could inform future vaccine development, said, "This is an example of the benefits of applying genomics to a real world problem of global health importance."

Through a collaboration with the vaccine division of the healthcare company GlaxoSmithKline, researchers from Broad Institute of MIT and Harvard, the Harvard T.H. Chan School of Public Health, and Fred Hutchinson Cancer Research Center obtained blood samples from over 5,000 of the approximately 15,000 infants and children who participated in the vaccine's phase 3 trial across 11 study sites in Africa between 2009 and 2013.

By sequencing these samples, the research team determined that while RTS,S provided at least partial protection against all strains of the parasite, it was significantly more effective at preventing malaria in children with matched allele parasites than in preventing malaria with mismatched allele parasites. The same effect was not noted in infants.

Wirth said, "Now that we understand that at least in the case of this immune response, that there's an allele-specific aspect to it - a particular parasite strain or type creates a certain immune response in the individual - this finding can color how we approach future vaccine discovery and development."

The study appeared online in the New England Journal of Medicine (NEJM).

Source: ANI

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