Parasite-host interactions regulating dormancy and reactivation of malaria parasites

What?Hypnozoites are dormant liver stage malaria parasites that can reactivate and cause repeated blood-stage infections without the bite of an infectious mosquito.

We will, for the first time:- characterize the cellular environment contributing to dormancy at systems level (WP1)- explore the reactivation kinetic and tissue environment of hypnozoites within the natural host (WP2)- functionally characterize host & parasite factors governing dormancy or reactivation (WP3)Why?- Dormancy and reactivation of hypnozoites is an unresolved biological mystery since decades- Dormant parasites are a major obstacle to the curative treatment of malariaThe challenge:Tracking the in vivo development and understanding the biology of these rare, quiescent parasites that normally reside inside the liver of the hostThe solution:A synergistic, multidisciplinary investigation, which is only possible if we combine the unique resources and complementary expertise of three leading laboratories in:- Radiopharmaceutical chemistry for the development of dedicated Positron Emission Tomography tracers for non-invasive investigation of the parasites in situ, as well as to capture infected tissue samples for systems level investigations- Systems biology for simultaneous multi-omics profiling of the parasite and the host cell at single-cell resolution and in the spatial context to be validated by parasitological assays- Parasitology for functional investigation through genetic engineering and manipulation of the parasites in vitro and validation within the natural hostAnticipated project outcomes:- Detailed insights into the relapse characteristics of the parasite in vivo- Understanding how host and parasite factors collectively determine the fate of infection- Novel imaging, transfection and omics methods for malaria research and beyond- Opportunities for novel therapeutic strategies for awakening and killing these vicious pathogens