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Targeting The Mannose Activation Pathway In Leishmania - Novel Drug Targets And Vaccines.
Funder
National Health and Medical Research Council
Funding Amount
$338,661.00
Summary
Leishmaniasis is a parasitic disease ranging in severity from skin lesions to fatal systemic infection. It is a serious public health problem throughout many regions of the world. Co-infection with HIV has emerged as a serious problem in Africa, South America and southern Europe. Recently, leishmaniasis has been identified in East Timor and in kangaroos in Australia. Treatment of leishmaniasis is based on chemotherapy, but currently used drugs are expensive, have high toxicity and unwanted side ....Leishmaniasis is a parasitic disease ranging in severity from skin lesions to fatal systemic infection. It is a serious public health problem throughout many regions of the world. Co-infection with HIV has emerged as a serious problem in Africa, South America and southern Europe. Recently, leishmaniasis has been identified in East Timor and in kangaroos in Australia. Treatment of leishmaniasis is based on chemotherapy, but currently used drugs are expensive, have high toxicity and unwanted side effects. They have also been compromised by the emergence of resistance in the parasite. Leishmania synthesises a range of surface molecules, which are needed for virulence and parasite survival in the host. The biosynthesis process of these molecules requires activated mannose. We have identified two novel parasite genes encoding for enzymes, which are essential for the biosynthesis of surface virulence factors. When either of these genes is deleted the parasite can no longer cause disease. This suggests that drugs targeting the two enzymes will be able to control the infection. We will produce crystals of these enzymes and solve their 3D structure using state of the art technology to screen libraries of synthetic chemicals to find candidate inhibitors of enzyme activity. When these compounds are identified we will use computer modelling to design compounds based on these inhibitors and crystal structure, which will lead to a new generation of anti-Leishmania drugs. We will also determine whether the avirulent parasites can be used as an attenuated vaccine. Recovery from infection leads to a solid immunity and protection from subsequent infection indicating that vaccination is feasible, but despite of a huge amount of research there is no antileishmanial vaccine currently available. This study will lead to potential novel antileishmanial drugs and vaccines. It will also provide fundametal new knowledge of the structure of enzymes critical for parasite virulence.Read moreRead less
Role Of Nucleocytoplasmic Trafficking Of Matrix Protein In RSV Infection
Funder
National Health and Medical Research Council
Funding Amount
$495,041.00
Summary
Respiratory syncytial virus (RSV) is the major cause of viral pneumonia in infants and young children throughout the world. By the age of 3, virtually every child has been infected by RSV at least once. RSV is also an important cause of pneumonia in the elderly and is estimated to cause more deaths each winter than influenza. In Australia, an estimated 100,000 infants are infected by RSV every year. In Victoria, RSV is the most common cause of all reported cases of respiratory tract disease, wit ....Respiratory syncytial virus (RSV) is the major cause of viral pneumonia in infants and young children throughout the world. By the age of 3, virtually every child has been infected by RSV at least once. RSV is also an important cause of pneumonia in the elderly and is estimated to cause more deaths each winter than influenza. In Australia, an estimated 100,000 infants are infected by RSV every year. In Victoria, RSV is the most common cause of all reported cases of respiratory tract disease, with an estimated annual cost of $1-4 million. Despite more than 40 years of research there is no vaccine to prevent RSV infection, and the only drug (ribavirin) licenced for treatment of RSV infection is expensive, difficult to administer, toxic, and of doubtful efficacy. We propose to examine one of the RSV proteins, the matrix protein (M). M is very important for virus propagation and is responsible for resultant cell injury. We have observed that M enters the cell nucleus (the location for all cellular DNA and RNA synthesis) where it appears to inhibit host cell RNA synthesis early in infection; later, it exits the nucleus in a step required for virus production in the cytoplasm. The signals that regulate transport of M into and out of the nucleus and the effect on the host cell leading to pathogenesis, are the focus of this proposal. The results of this study will be beneficial in many ways. Most importantly, we will gain knowledge about the processes underlying cell injury caused in RSV disease, which may lead to the identification of novel targets for intervention strategies.Read moreRead less
Structural Characterization Of Novel AB5 Cytotoxin - SubAB
Funder
National Health and Medical Research Council
Funding Amount
$445,011.00
Summary
AB5 toxins are virulence factors from a range of pathogenic bacteria, including Shiga toxigenic E. coli (STEC), S. dysenteriae, V. cholerae, and B. pertussis. AB5 toxins comprise a catalytic A subunit that disrupts distinct essential cellular processes within the cell and a receptor binding, pentameric B subunit that enables the toxin to target certain cell types. We are structural characterizing a novel AB5 toxin that targets an essential component of the cellular machinery.
Scabies is caused by microscopic mites burrowing through the skin, causing intense itching and providing prime breeding sites for bacteria. The resulting skin sores are very common among Aboriginal children in Australia leading to extreme levels of rheumatic fever-heart disease and renal failure in Indigenous communities. We have discovered mite products termed Serpins which interfere with the patients defence against the mites and the bacteria and aim to develop therapeutics.