Adaptation Of Hepatitis C To Host HLA-Restricted Immune Responses In Australian Populations
Funder
National Health and Medical Research Council
Funding Amount
$480,750.00
Summary
Over 200,000 Australians are infected with the Hepatitis C Virus (HCV) and about 11,000 new infections are diagnosed each year. Around 25% of people infected with HCV will clear the virus while for individuals with chronic infection 10 to 20% will develop cirrhosis of the liver within the next 20-40 years. Differences in host genetic factors and viral variants will, in large part, explain the observed heterogeneity in the clinical outcome and course of HCV infection. The basic theory underpinnin ....Over 200,000 Australians are infected with the Hepatitis C Virus (HCV) and about 11,000 new infections are diagnosed each year. Around 25% of people infected with HCV will clear the virus while for individuals with chronic infection 10 to 20% will develop cirrhosis of the liver within the next 20-40 years. Differences in host genetic factors and viral variants will, in large part, explain the observed heterogeneity in the clinical outcome and course of HCV infection. The basic theory underpinning this research is that the evolution of viruses such as HCV and HIV are influenced by the HLA type of the individual (hots), in combination with the ability of the virus to mutate (rid itself of deleterious mutations) to avoid the host's immune challenge (analogous to drug resistance) even at the lesser cost of impairing viral fitness or replication. We have shown that this is dependent on the immune environment that the virus encounters in relation to which HLA alleles are present in the host, therefore the escape is context specific. After transmission to a new host who lacks the same HLA type, the virus eliminates the previously advantageous mutations which could potentially impair viral fitness. The current study will carry out HCV sequencing and HLA typing on approximately 500 people with HCV from multiple Centres in Australia in order to characterise the interaction between the viral and host genetic factors. A customised software programme, Epipop, has been designed to perform sophisticated statistical analyses on the generated data, and has been successfully applied to HIV vaccine design. The results of this study could help explain why some infected individuals can spontaneously clear their infection while others go on to severe liver disease and allow clinicians to anticipate the course of infection in individuals and plan their management accordingly. Furthermore, the results may facilitate the search for optimal therapeutic and vaccination strategies.Read moreRead less
Molecular Typing Of Salmonella Enterica Serovar Typhimurium
Funder
National Health and Medical Research Council
Funding Amount
$272,545.00
Summary
Salmonella mainly causes food poisoning and is a significant human health problem. Different Samonella forms are identified by serotyping and many serovars have been given a name . There are more than 2000 serovars. The best known serovar is Typhimurium which is the cause of 40% of salmonella infections. Typhimurium is so frequently involved in infections it is necessary to further divide it for outbreak investigations and long term monitoring of the organism. The only widely used method to subd ....Salmonella mainly causes food poisoning and is a significant human health problem. Different Samonella forms are identified by serotyping and many serovars have been given a name . There are more than 2000 serovars. The best known serovar is Typhimurium which is the cause of 40% of salmonella infections. Typhimurium is so frequently involved in infections it is necessary to further divide it for outbreak investigations and long term monitoring of the organism. The only widely used method to subdivide Typhimurium is phage typing, which is done only in major laboratories (2 in Australia). Phage typing is based on lysis patterns of a test isolate to a set of 34 phages. Phage typing has played a crucial role in tracking the organism, for example the emergence of a multidrug resistance new type (DT204c) in UK and US. The technique is simple but the problem is that reactions vary with slight change in conditions and scoring the reaction results is very subjective. We propose to replace the typing system with one based on the DNA method PCR, so it will be simple, fast and accurate. We will use a DNA fingerprinting technique called AFLP (amplified fragment length polymorphism) to find markers (DNA segments) that are specific to phage types and design PCR assays based on the markers we find. Such a typing system will retain the essence of phage typing by providing continuity of the valuable epidemiological database on phage types. Further the typing system could easily be expanded to accommodate any new types by finding more markers while the current phage typing system is very difficult to expand (last done in 1977 and is behind in our needs). This project will establish a general approach for designing typing systems based on molecular biology for other pathogens and could have a major impact on the surveillance of bacterial infections in the 21st century.Read moreRead less
Optimising Temporal Genomic Surveillance Of Salmonella Infections In Australia
Funder
National Health and Medical Research Council
Funding Amount
$763,447.00
Summary
Salmonella is a leading cause of the food-borne disease – salmonellosis. It is responsible for considerable morbidity and has an enormous economic cost. Molecular typing is the key to rapidly identify and control outbreaks. This project will optimise the use of whole genome sequencing for outbreak investigation and long term epidemiology. A surveillance system that integrates genome sequence and epidemiological data will be highly significant for outbreak investigation and disease prevention.
Investigations Into The Architectural And Biophysical Features Of Optimal T Cell Receptor Design
Funder
National Health and Medical Research Council
Funding Amount
$251,877.00
Summary
Humans evolve slowly, pathogens and cancer evolve quickly. Unsurprisingly, our immune systems often lose this arms race and we irreversibly succumb to disease. Catastrophically, >26 million people are lost every year to the these causes. This project will use a new technology to rapidly advance the evolution of human immune receptors to construct a class of super-receptor. These super-receptors may prove decisive weapons in the fight against cancer and infectious disease.
An Investigation Into The Role Of 3’UTR Dynamics In Breast Cancer Metastasis
Funder
National Health and Medical Research Council
Funding Amount
$627,444.00
Summary
Basic research has brought many improvements to the diagnosis and treatment of cancer. An exception are the triple negative breast cancers. No targeted therapies yet exist, and thus a combination of chemotherapy, surgery and radiation therapy is the only option. For 2/3rds of women this works well and survivor rates are high, but the prognosis is poor for those that do not respond. This research aims to reveal therapeutic opportunities to block the potential of such tumours to spread.