Understanding How A Parasite-derived Peptide Prevents Immune Mediated Demyelination
Funder
National Health and Medical Research Council
Funding Amount
$496,978.00
Summary
Over millennia of co-evolution with humans, parasitic worms have developed the capacity to modulate the human immune system. We have characterised and identified novel molecules secreted by these worms. In this project we will assess the therapeutic potential of the parasite molecules using animal models of relapsing remitting multiple sclerosis.
I am a molecular biologist examining proteins from the parasitic scabies mite Sarcoptes scabiei, identified in a major expressed sequence tag program, for their roles in the host parasitic interaction and hence new possibilities in intervention. The proj
Decoding the molecular components of aquatic parasite-host interactions. This project aims to further understand the molecular components that regulate aquatic host-parasite interactions which contributes to many diseases worldwide. Aquatic parasites rely on chemical cues to locate and infect their host. This project will target the aquatic host-parasite interaction to decipher these chemical cues, so that future tools may be developed to suppress this interplay. This project expects to contribu ....Decoding the molecular components of aquatic parasite-host interactions. This project aims to further understand the molecular components that regulate aquatic host-parasite interactions which contributes to many diseases worldwide. Aquatic parasites rely on chemical cues to locate and infect their host. This project will target the aquatic host-parasite interaction to decipher these chemical cues, so that future tools may be developed to suppress this interplay. This project expects to contribute imperative basic knowledge for the future control of the intestinal parasite disease, Schistosomiasis, a devastating tropical disease.Read moreRead less
Structural and functional characterisation of compounds that inhibit the malarial aminopeptidases. Malaria is the world's most prevalent parasitic disease. Due to the rapid spread of drug resistant parasites there is a need to develop new antimalarial drugs. In this proposal we will characterise new targets and novel methods of inhibition that will form the basis of a new mechanism for antimalarial drugs.
A novel approach for controlling insect vectors of human disease. Insects are responsible for transmitting a wide variety of debilitating human diseases such as malaria, dengue and yellow fever. Unfortunately, there are very few options available for controlling these insect pests. This project will develop a novel, eco-friendly approach for control of mosquitoes and other important disease vectors.