New Understanding of Parasite Biology Might Help Stop Malaria Transmission
Researchers at the Swiss Tropical and Public Health Institute and the University of Basel made an important step toward a deeper understanding of how malaria blood stage parasites turn the switch to become transmissible to other humans. This knowledge is fundamental for future research aiming to interrupt malaria transmission. The results have been in the journal Science.
15 March 2018
Malaria parasites multiply asexually in the human bloodstream, thereby causing chronic infection and all the complications associated with this devastating disease. During each round of multiplication, a small proportion of parasites develop into non-dividing gametocytes instead. Gametocytes are infectious to mosquitoes and are therefore the catalyst for transmitting malaria to other humans. Understanding how malaria parasites control the switch to gametocyte production is central to support the development of therapeutic interventions that could block malaria transmission.
How malaria parasites turn the switch
Whether a parasite continues to multiply or develops into a gametocyte is controlled by a molecular switch. A recent publication in Cell demonstrated that this switch responds to a lipid molecule present in human blood: lysophosphatidylcholine (LPC). Under high LPC concentrations, parasites multiply, consuming LPC to build new membranes. When LPC concentrations drop, as they do during acute infections, parasites convert into gametocytes to secure their transmission to the next human host.
Researchers at the Swiss Tropical and Public Health Institute (Swiss TPH) have now identified a parasite protein (GDV1) that plays a crucial role in activating the gametocyte conversion switch. “GDV1 basically ignites a process that reprograms gene expression in the parasite such that gametocyte development occurs,” said Till Voss, a professor at the University of Basel and Head of the Malaria Gene Regulation Unit at Swiss TPH.
The study in Science further shows that GDV1 is only produced in parasites destined to develop into gametocytes. In multiplying parasites, an inhibitory molecule prevents expression of GDV1. “We were amazed to observe that after targeted disruption of this inhibitory molecule using CRISPR-Cas9 technology, all parasites expressed the GDV1 protein,” said Michael Filarsky, first author of the study and scientist at Swiss TPH. Another important finding of this study is that GDV1 production is likewise inhibited by LPC. “This is exciting. We are onto the molecular pathway that transports an environmental stimulus into the parasite to activate gametocyte development,” concludes Voss.
“Fundamental knowledge and a new tool for future research”
Drugs and vaccines that target gametocytes are urgently needed to reach the declared aim of eliminating and eradicating malaria. “Although our study does not offer immediate solutions for novel therapies, it sheds new light on the mechanisms responsible for the production of gametocytes,” said Till Voss. “If we can block this mechanism or eliminate gametocytes altogether, we might get an important step closer to interrupting malaria transmission.”
The new knowledge also allows Swiss TPH scientists to produce high quantities of gametocytes in the laboratory. “Research on gametocytes is hampered by the fact that they usually only arise in very small numbers,” said Michael Filarsky. “We are now able to engineer genetically-modified parasites that deliver enormous quantities of gametocytes. We predict that these parasites will be useful not only for future basic research but also for applied research in this area.”
Original source
Michael Filarsky, Sabine A. Fraschka, Igor Niederwieser, Nicolas M. B. Brancucci, Eilidh Carrington, Elvira Carrió, Suzette Moes, Paul Jenoe, Richárd Bártfai, Till S. Voss
GDV1 induces sexual commitment of malaria parasites by antagonizing HP1-dependent gene silencing
Science (2018), doi: 10.1126/science.aan6042
Further information
- Prof. Dr. Till Voss, Swiss TPH / University of Basel, tel. +41 61 284 81 61, email: till.voss@swisstph.ch
- Sabina Beatrice-Matter, Swiss TPH, Communications, tel. +41 61 284 8364, +41 79 737 91 58, email: sabina.beatrice@swisstph.ch