Role Of Sphingosine Kinase 1 In PP2A-associated Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$522,994.00
Summary
Defects in protein phosphatase 2A (PP2A) are widely associated with the development of solid tumors and leukemia. The precise mechanisms whereby defects in PP2A lead to cancer, however, remain undefined. We have recently identified that the oncogenic protein sphingosine kinase 1 (SK1) as a target of PP2A. In this study we will examine the role of SK1 in PP2A-associated cancers. Successful outcomes in these studies will establish SK1 as a target for therapeutic intervention in these cancers.
Mechanisms Of Regulation And Biological Roles Of Sphingosine Kinase 2
Funder
National Health and Medical Research Council
Funding Amount
$517,989.00
Summary
We have identified that a protein called sphingosine kinase 2 (SK2) is a potential target for anti-cancer therapies. Our preliminary studies indicate that phosphorylation of SK2 controls its function. In this proposal we will define how phosphorylation alters SK2 function so that potential therapies may be developed to target this process.
An AMPK Myristoyl Switch Controls AMP Mediated Metabolic Stress Signaling
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
This project is investigating an enzyme called AMP-activated protein kinase that plays a pivotal role in controlling how our bodies regulate energy metabolism in response to exercise and diet. Improved understanding of how this enzyme is regulated may provide new therapeutic methods for mimicking the beneficial effects of diet and exercise to treat multiple metabolic diseases including obesity, Type 2 diabetes and cardiovascular disease.
Cells are building blocks of living things and require signalling pathways to communicate their functions. We discovered a new signalling pathway in flies that remarkably exists in yeast and plants to more complex organisms like mice and man. We will study this new signalling pathway in flies to find out how and why it communicates in cells. As flies and humans share similar genes, our studies will inform how this previously unknown signalling pathway functions from simple to complex organisms
Regulation of cell proliferation and survival by the ubiquitin system. This project aims to investigate how the fundamental processes of cell division and cell death are controlled at the molecular level by protein degradation enzymes (known as ubiquitin ligases), and how these regulate cellular homeostasis. Using interdisciplinary approaches incorporating proteomics, biochemistry, and molecular cell biology, this project seeks to delineate the components of signalling pathways implicated in the ....Regulation of cell proliferation and survival by the ubiquitin system. This project aims to investigate how the fundamental processes of cell division and cell death are controlled at the molecular level by protein degradation enzymes (known as ubiquitin ligases), and how these regulate cellular homeostasis. Using interdisciplinary approaches incorporating proteomics, biochemistry, and molecular cell biology, this project seeks to delineate the components of signalling pathways implicated in the degradation of proteins implicated in cell division and cell death. Expected outcomes include an increased understanding of how proteins are specifically selected for degradation. Protein degradation pathways operate with remarkable selectivity and this work is expected to illuminate the mechanisms of substrate targeting. The biochemical approaches will provide insight and impact in the areas of cell signaling, organelle biology and cell biology.Read moreRead less
Structural and functional analysis of the protein kinase R. We have shown that protein kinase R (PKR) plays a key role in regulating the body's response to virus infections, inflammation and cancer. This project will identify mechanisms that regulate the activity of PKR and provide information useful for the development of novel drugs.
Decoding the spatiotemporal control of DNA replication and repair. DNA replication is the fundamental mechanism of genetic inheritance and essential for all cellular life. This project aims to inform our understanding of how human cells coordinate the DNA replication machinery in time and space to accurately copy the human genome. By applying multiple innovative approaches and employing an interdisciplinary research team, this project is anticipated to generate new knowledge that explains how th ....Decoding the spatiotemporal control of DNA replication and repair. DNA replication is the fundamental mechanism of genetic inheritance and essential for all cellular life. This project aims to inform our understanding of how human cells coordinate the DNA replication machinery in time and space to accurately copy the human genome. By applying multiple innovative approaches and employing an interdisciplinary research team, this project is anticipated to generate new knowledge that explains how the human genome is replicated. This knowledge is expected to generate research publications of high quality and provide economic benefits, such as unlocking new potentially patentable DNA technologies. Read moreRead less
A molecular investigation into the naïve T cell repertoire. This project aims to interrogate the relationship between T cell receptor (TCR) recognition modes and T cell recruitment and activation. CD8+ T cells are important for adaptive immunity. Their recognition, via TCR, of peptides bound to MHC class I antigen-presenting molecules (pMHCI), initiates a signalling cascade which activates T cells effector functions. All structural information on TCR recognition of pMHCI is based on TCRs prevale ....A molecular investigation into the naïve T cell repertoire. This project aims to interrogate the relationship between T cell receptor (TCR) recognition modes and T cell recruitment and activation. CD8+ T cells are important for adaptive immunity. Their recognition, via TCR, of peptides bound to MHC class I antigen-presenting molecules (pMHCI), initiates a signalling cascade which activates T cells effector functions. All structural information on TCR recognition of pMHCI is based on TCRs prevalent in immune responses, and all recognise pMHCI using a conserved orientation. This project aims to use this observation to study the relationship between TCR recognition modes and T cell recruitment and activation.Read moreRead less
How protein tyrosine phosphatases select their substrates. Protein tyrosine phosphatases (PTPs) are enzymes that control the response of cells to divergent environmental stimuli. This project will determine how individual PTPs exert selective effects on cellular communication networks to coordinate organismal development, growth and survival.
Integrating Wnt-Apc Pathway With TGF-beta Signalling In Colon Cancer
Funder
National Health and Medical Research Council
Funding Amount
$342,364.00
Summary
Colon cancer is one of the leading causes of death of all cancers. Two molecular pathways have been independently implicated in colon cancer development. Emerging evidences suggest that the two pathways may work together in the colon polypus formation. This application will integrate two separate molecular causes to form a new coherent understanding of cancer development and offer new directions in development of novel colon cancer treatment.