Pathophysiology And Treatment Of Malaria And Other Tropical Infectious Diseases Prevalent In Our Region
Funder
National Health and Medical Research Council
Funding Amount
$560,284.00
Summary
Nick Anstey is internationally recognised for his discoveries in malaria and other tropical infectious diseases. He leads a major tropical infectious disease research program in Darwin and SouthEast Asia that attracts some of the brightest researchers and students from Australia and beyond to understand disease mechanisms and work on new ways to treat illness and prevent death. He uses results to change policy and practice not only in Australia but around the world.
Trafficking And Expression Of PfEMP1 On The Surface Of P.falciparum-infected Erythrocytes
Funder
National Health and Medical Research Council
Funding Amount
$558,189.00
Summary
Malaria causes over 2 million deaths each year. The parasite infects human red blood cells and expresses a virulence protein on the erythrocyte surface allowing it to adhere to the microcapillaries preventing clearance through the spleen. We aim to understand how the parasite is able to express this virulence protein on the parasite-infected red blood cell surface. Identification of the proteins involved will provide potential drug targets to develop novel antimalarial compounds and strategies.
Age-and Species-related Regulation Of Host Inflammatory Responses In Falciparum And Vivax Malaria
Funder
National Health and Medical Research Council
Funding Amount
$323,640.00
Summary
Malaria kills 1 million people every year, mostly children. The cause of death from malaria differs between children and adults, yet the reason for these differences is unknown. We have shown that in adults regulatory immune cells contribute to malaria disease complications. We want to test if these cells also worsen malaria disease in children. Understanding age-related differences in immune cell regulation will help to improve malaria treatment and aid development of effective malaria vaccines ....Malaria kills 1 million people every year, mostly children. The cause of death from malaria differs between children and adults, yet the reason for these differences is unknown. We have shown that in adults regulatory immune cells contribute to malaria disease complications. We want to test if these cells also worsen malaria disease in children. Understanding age-related differences in immune cell regulation will help to improve malaria treatment and aid development of effective malaria vaccines for adults and children.Read moreRead less
Antibodies Against Erythrocyte Invasion Ligands Of Plasmodium Falciparum And Protection From Malaria
Funder
National Health and Medical Research Council
Funding Amount
$358,184.00
Summary
Malaria is a leading cause of childhood death globally. Malaria parasites infect red blood cells and multiply inside them, resulting in severe illness if untreated. Currently there is no vaccine available and effective treatments are limited. In studies of children in Africa and PNG, we aim to identify immune responses that block infection and growth of malaria in the blood. With this knowledge, vaccines can be designed that target malaria to prevent serious illness and death.
Endothelial Dysfunction As A Therapeutic Target In Severe Malaria
Funder
National Health and Medical Research Council
Funding Amount
$842,329.00
Summary
Even with very best drugs to kill malaria parasites, over 15% of patients with severe malaria still die. Their blood vessels are clogged up by malaria parasites. We have shown that the cells lining their blood vessels can't make enough nitric oxide to keep them non-sticky and allow blood through. We want to test whether giving arginine can 1) increase nitric oxide, 2) open up the clogged blood vessels and 3) dampen down other processes that clog up blood vessels in severe malaria.
Identifying The Targets Of Protective Immunity To Malaria In Pregnancy
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
Malaria in pregnancy is a major cause of disease across many countries. Pregnant women have a high risk of malaria, and large numbers of malaria parasites accumulate in the placenta, which may lead to infant or maternal death. Malaria parasites infect the placenta by producing proteins that enable them to stick to the placenta. These malaria strains causing placental infection generally do not cause disease in non-pregnant individuals. Antibodies to the parasite proteins are produced in response ....Malaria in pregnancy is a major cause of disease across many countries. Pregnant women have a high risk of malaria, and large numbers of malaria parasites accumulate in the placenta, which may lead to infant or maternal death. Malaria parasites infect the placenta by producing proteins that enable them to stick to the placenta. These malaria strains causing placental infection generally do not cause disease in non-pregnant individuals. Antibodies to the parasite proteins are produced in response to placental infection, which may help control the infection and protect against further malaria in pregnancy. However, placental malaria parasites are able to vary the proteins they produce to avoid immune responses. In this project, we will study the parasite strains that cause malaria in pregnancy and the development of antibodies that protect pregnant women against malaria and its complications. We aim to identify the genes and proteins that parasites use to stick to the placenta, and determine how much variation occurs in these proteins. We will also specifically examine the role of one particular candidate gene called var2csa, and its protein, as this has been recently been associated with pregnancy malaria. We will examine how antibodies develop that recognise different proteins and different forms of malaria parasites, and determine the type of antibodies that protect pregnant women taking part in a longitudinal study of malaria in pregnancy in Malawi, Africa. We will also examine how antimalarial drugs taken in pregnancy influence the development of protective antibodies. Through these studies we aim to understand how the immune system combats malaria in pregnancy. This will be important for developing new methods for preventing or treating malaria in pregnancy, and improving child and maternal health.Read moreRead less