Student topics

Dementia is the greatest cause of disability in Australians over the age of 65 years. In the absence of a significant medical breakthrough, more than $6.4 million Australians will be diagnosed with dementia in the next 40 years. The most common form of dementia is Alzheimer’s disease (AD), accounting for 60-80% of cases. The pathogenic process of AD begins decades prior to the clinical onset, so it is likely that treatments need to begin early in the disease process to …

Study level

Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Colorectal cancer is a very common disease, with over 15,000 new cases diagnosed in Australia annually. Metastatic colorectal cancer describes advanced disease that has spread beyond the primary site. This is very aggressive and incurable in the vast majority of these patients. To improve outcomes for colorectal cancer, we are using cutting edge genomic and cell biology techniques to understand disease heterogeneity and optimise drug response. We are developing novel therapeutic interventions based on unique molecular signatures and are testing …

Study level

Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Several studies have demonstrated the appropriateness of 3D organoid cultures over the conventional 2D cultures, the advantages of 3D models include replicating the complex attributes of the liver beyond liver-specific metabolism, such as increased cell density, organization, and cell–cell signalling, O2 zonation.In this project we will establish a novel in vitro 3D model to study hepatocyte biology in the context of liver disease. A more comprehensive approach to investigating the intercellular mechanisms of NAFLD will include co-culture of organoids with …

Study level

PhD, Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

The as-yet-uncultured archaeal lineage Methanoperedenaceae are anaerobic methanotrophs with a key role in mitigating the atmospheric release of methane in freshwater environments. The metabolic diversity of these microorganisms directly links methane with several key biochemical cycles and suggests a remarkable ability of these microorganisms to adapt to diverse environmental conditions.The overall aim of this PhD project will be to uncover the metabolic diversity of the Methanoperedenaceae and to understand the evolutionary mechanisms responsible for these adaptations.Methods and ResourcesThe project will …

Study level

PhD

Faculty

Faculty of Health

School

School of Biomedical Sciences

Research centre(s)

Centre for Microbiome Research

Our understanding of microbial diversity on earth has been fundamentally changed by metagenomic characterisation of natural ecosystems. Traditional approaches for visualising microbial communities are time-consuming and provide limited information about the identity of specific microorganisms.The proposed research aims to combine single cell genomics and super resolution microscopy for novel, high-throughput, genome-based techniques to visualise microorganisms, plasmids and viruses, with strain level specificity.The application of these highly scalable approaches will provide comprehensive and unprecedented insight into the fine-scale dynamics and evolution …

Study level

PhD

Faculty

Faculty of Health

School

School of Biomedical Sciences

Research centre(s)

Centre for Microbiome Research

Iron is an element essential for virtually all life forms; aberrant iron metabolism is linked to many diseases. These include cancers, neurodegenerative diseases such as Alzheimer’s and Parkinson’s disease, iron overload and iron deficiency disorders, iron-loading anaemias, and the anaemia associated with chronic disease. Central to proper iron regulation is the appropriate expression and activity of the liver-expressed regulatory peptide, hepcidin, and the iron exporter, ferroportin (FPN). Modulating the expression and activity of hepcidin and FPN, and their interaction is …

Study level

PhD, Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Advanced prostate cancer (PCa) is a leading cause of cancer-associated death in Australian men. Anti-androgens, which exploit the tumour’s reliance on androgens for its growth & spread, offer temporary remission in advanced PCa patients, but due to treatment resistance, fail to be curative. A further complication of anti-androgens is that they trigger a deleterious suite of metabolic side-effects resembling obesity/Metabolic syndrome. These symptoms not only impact patient health but promote tumours to be more aggressive & resist treatment. Vital new …

Study level

PhD, Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Transforming growth factor β (TGFβ) and its family members is involved in many phases of liver disease development and iron regulation. We have identified unexplored players in liver disease and iron-related disorders: TGF signalling intermediates. In this project, we build on our exciting findings to examine the molecular mechanisms involved in TGF signalling intermediates-mediated disease progression and their potential as targets for liver and iron-related disease.AimsThis project aims to:examine the expression of TGF signalling intermediates in the liverspecifically deplete TGF …

Study level

PhD, Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Advanced prostate cancer (PCa) is a leading cause of cancer-associated death in Australian men. Anti-androgens, which exploit the tumour’s reliance on androgens for its growth and spread, offer temporary remission in advanced PCa patients, but due to treatment resistance, fail to be curative. A further complication of anti-androgens is that they trigger a deleterious suite of metabolic side-effects resembling obesity/Metabolic syndrome. These symptoms not only impact patient health but promote the tumour to be more aggressive and resist treatment. Vital …

Study level

PhD, Master of Philosophy, Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

The genome of our cells is damaged multiple times each day, by various factors including sunlight and reactive oxygen species. In order for the DNA damage response to be efficient, our cells utilise highly coordinated repair pathways that function accurately and rapidly throughout the damaged cell. Cells that do not repair DNA damage correctly will accumulate damage and display increased genomic instability, which is a key hallmark of cancer cells, promoting their survival and rapid growth. DNA repair pathways are …

Study level

Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Data generated in the lab has identified a novel DNA repair protein previously described as a key protein in HSP70/90 complexes. Many pathways of tumourigenesis are mediated by Heat Shock Proteins and HSP70/90 are found significantly upregulated in ovarian cancers. The targeting of HSP70/90 are an emerging therapeutic avenue for the treatment of ovarian cancer. Supporting this, an inhibitor of HSP90 has been shown to sensitise breast cancer cells to PARP inhibitors and paclitaxel.Our preliminary data indicates that this new …

Study level

Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences

Our cellular DNA is constantly under threat from both exogenous and endogenous factors. DNA repair pathways function to maintain genomic stability, preventing deleterious mutations that may ultimately lead to cancer initiation. When a tumour forms, it becomes genetically unstable, allowing environmental adaptation. This genetic instability can also result in gene mutations and protein expression alterations that can be targeted to induce cancer-specific cell death (phenomenon also known as synthetic lethality). For example, it has been shown that cells deficient in …

Study level

Honours

Faculty

Faculty of Health

School

School of Biomedical Sciences