Functional Genomics Of Malaria Liver Infection And Transmission
Funder
National Health and Medical Research Council
Funding Amount
$470,144.00
Summary
Chemotherapy is the front line defense against malaria but resistance is emerging. The WHO has advised that new drugs should target parasite stages that perpetuate the transmission of malaria to break the cycle of infection. We have identified proteins that are essential for the two transmissive stages of the most deadly parasite to infect their hosts. We will determine the precise function of these proteins and the mechanisms they govern. This may guide the development of new interventions.
Role Of Plasmepsin V And PTEX Complex In Plasmodium Liver Infection
Funder
National Health and Medical Research Council
Funding Amount
$848,408.00
Summary
Plasmepsin V and PTEX are essential proteins for malaria parasites to grow inside red blood cells. These proteins control the export of parasite proteins into red cells, causing disease. Before red blood cells are infected, parasites invade liver cells. Plasmepsin V and PTEX are expressed during liver infection but their function is currently unknown. We hypothesise that they allow parasites to export proteins into liver cells in order to survive and, thus, are antimalarial drug targets.
The extraordinary virulence of malaria parasites is in part due to their ability to export hundreds of proteins into their host cell to obtain nutrients and avoid the immune system. Recently the investigator has discovered the machinery that provides the gateway for these proteins to enter the host cell. She now aims to characterise this machinery and dissect its functional significance in vivo, so that strategies that block this crucial process can be developed to kill the parasite.
Export Of PfEMP1, The Major Virulence Protein Of P. Falciparum, To The Parasite-infected Erythrocyte Surface
Funder
National Health and Medical Research Council
Funding Amount
$588,532.00
Summary
The malaria parasite infects red blood cells in the human host and initiates major remodelling. This involves export of a major virulence protein to the surface of the red blood cell. This research seeks to understand how the parasite exports this protein, a key determinant of disease.