Functional Characterisation Of A Maurer's Cleft Protein Involved In Adhesion Of Malaria-infected Red Blood Cells
Funder
National Health and Medical Research Council
Funding Amount
$160,500.00
Summary
Malaria is a serious disease that affects half of the world's population and frequently kills humans after a bout of high fever and coma. Many of those who die are young children who live in areas of the world where health care is very poor. The effectiveness of drugs that we currently have available to prevent or treat malaria is rapidly reducing and there is no vaccine available to prevent people from catching the disease. Our research is important because in order to make better medicines for ....Malaria is a serious disease that affects half of the world's population and frequently kills humans after a bout of high fever and coma. Many of those who die are young children who live in areas of the world where health care is very poor. The effectiveness of drugs that we currently have available to prevent or treat malaria is rapidly reducing and there is no vaccine available to prevent people from catching the disease. Our research is important because in order to make better medicines for malaria we have to get to know more about how the malaria parasite makes people sick. The most vicious form of malaria is caused by a tiny parasite called Plasmodium falciparum that lives inside the red blood cells in our bodies. As these minute parasites grow, they make a lot of major changes to the red blood cells and as a result they become very stiff and sticky. This is very bad for the infected person because instead of flowing around the body like normal red blood cells, the infected cells become trapped in small veins and can no longer do their normal job. The ability of the parasite to redecorate red blood cells and make them stiff and sticky is what makes this type of malaria so dangerous, particularly when red cells get stuck in the brain. The research that we will do here will help us to understand the ways in which the malaria parasite sends out these sticky substances to the walls of red blood cells. Eventually, this will help us to find ways to stop the red blood cells from becoming sticky and prevent so many people from becoming very sick and dying with malaria.Read moreRead less
Plasmodium Falciparum Neutral Aminopeptidases: Structure-function Analysis For The Discovery Of Anti-malarial Drugs.
Funder
National Health and Medical Research Council
Funding Amount
$634,027.00
Summary
Malaria is the world's most prevalent parasitic disease. Due to the spread of drug resistant parasites there is an urgent need to identify new anti-malaria targets and develop new drugs. We have shown that two enzymes, termed neutral aminopeptidases, are essential to the parasite's survival in the host. In this proposal we will obtain the structure of these enzymes and bring forth novel lead compounds that will form the basis of a new class of anti-malaria treatment.
Determining The Function Of Parasite Proteins At The Membrane Skeleton Of Malaria-infected Red Blood Cells
Funder
National Health and Medical Research Council
Funding Amount
$392,036.00
Summary
Malaria is a serious disease that frequently kills its victim after a bout of high fever and coma. The most vicious form of malaria is caused by a minute parasite called Plasmodium falciparum that lives inside red blood cells. As these parasites grow, they make some dramatic renovations to their red blood cell home that make it become very stiff and sticky. Instead of flowing around the body like normal red blood cells, the infected cells become trapped in small veins and can no longer carry out ....Malaria is a serious disease that frequently kills its victim after a bout of high fever and coma. The most vicious form of malaria is caused by a minute parasite called Plasmodium falciparum that lives inside red blood cells. As these parasites grow, they make some dramatic renovations to their red blood cell home that make it become very stiff and sticky. Instead of flowing around the body like normal red blood cells, the infected cells become trapped in small veins and can no longer carry out their normal job. The ability of the parasite to make red blood cells stiff and sticky is what makes this type of malaria so dangerous, particularly when red cells get stuck in the brain. We plan to look at certain proteins that malaria parasites place on the walls of red blood cells because we think this is what makes them stiff and sticky. We hope this will help with the development of and urgently required ways to cure malaria.Read moreRead less