The discovery by researchers from the Walter and Eliza Hall Institute of a molecule that is key to malaria’s ‘invisibility cloak’ will help to better understand how the parasite causes disease and escapes from the defenses mounted by the immune system.

The research team, led by Professor Alan Cowman from the institute’s Infection and Immunity division, has identified one of the crucial molecules that instructs the parasite to employ its invisibility cloak to hide from the immune system, and helps its offspring to remember how to ‘make’ the cloak.

In research published today in the journal Cell Host and Microbe, Professor Cowman and colleagues reveal details about the first molecule found to control the genetic expression of PfEMP1 (Plasmodium falciparum erythrocyte membrane protein 1), a protein that is known to be a major cause of disease during malaria infection.

“The molecule that we discovered, named PfSET10, plays an important role in the genetic control of PfEMP1; an essential parasite protein that is used during specific stages of parasite development for its survival,” Professor Cowman said.