Malaria Phosphatase Inhibitors Identified as a Potential New Malaria Treatment
University Of Notre Dame, Notre Dame IN
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Abstract
DESCRIPTION (provided by applicant): Malaria is a major infectious disease. Conservative estimates predict 2-300 million people are afflicted and over a million children die from the infection each year. The growing threat of drug resistant forms of malaria has created an urgent requirement for new drugs. Targeting unique features of host and parasite interactions provides one approach to new drug and vaccine development. Plasmodium falciparum causes the most virulent form of human malaria. To do this the parasite must secrete proteins that stimulate invasion of the erythrocyte which is critical to maintain blood stage infection. We have identified a novel phosphatase of the human malaria parasite P. falciparum that functions in parasite invasion of the erythrocyte and establishment of new vacuole. It is predicted to be active in mosquito stages, suggesting it may provide a target in transmission blocking as well. Further it is bacterial-like phosphatase present in all malarial species, suggesting that signaling via the phosphatase may be a conserved mechanism of infection that could be targeted to develop inhibitors as a new treatment for malaria. This is a new target and there are no compounds currently available for it and thus our studies will contribute to drugs that will be active agains parasites, which are otherwise resistant to other drugs and targets. Importantly, drugs against this phosphatase will be early 'acting' and thus rapidly reduce fever. Molecular, genetic tools using expression of recombinant protein and cell and animal analyses of this P.falciparum phosphatase will be used in conjunction with high throughput screening assays. These studies will be important for developing chemo prophylaxis directed against a brand new target in a major human pathogen.
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