The Therapeutic Role Of Complement Inhibition In ANCA Associated Glomerulonephritis
Funder
National Health and Medical Research Council
Funding Amount
$600,964.00
Summary
ANCA associated vasculitis is an inflammatory disease involving the kidney filters which is a major cause of chronic kidney failure. Current drugs to treat it are toxic. Less toxic treatments are required. In this study we will explore the potential for new treatments targeting complement (a normal blood protein involved in inflammation) to attenuate this disease in mice. We hope to define the role of complement in this disease and the benefits of inhibiting it before we use it in humans.
Phagocytic Clearance And Immune Activation In Malaria
Funder
National Health and Medical Research Council
Funding Amount
$564,644.00
Summary
Macrophage white blood cells clear malaria infected cells by eating them, by three routes- by recognising ANTIBODIES or COMPLEMENT on the cell surface, or by the cell BINDING directly to the macrophage. Each has different results, such as amounts of cytokines produced. Cytokines clear malaria; in excess they can cause fatal immune pathology. We will investigate how variations in amount of antibody and complement and route of uptake of malaria infected cells might determine malaria outcome.
Genomic Analysis Of DNA Binding And Gene Regulation By The Chromatin Remodelling Factor UBF
Funder
National Health and Medical Research Council
Funding Amount
$624,254.00
Summary
Synthesis of ribosomes, the cellular protein synthetic machinery, is the major anabolic event of a growing cell and is frequently dysregulated during disease such as cancer. This grant will examine a protein termed UBF that we think plays an important role in orchestrating the cellular response to dysregulated ribosome biogenesis. By understanding how UBF functions we hope to uncover novel therapeutic approaches to treat diseases associated with ribosome stress .
Cytotoxic lymphocytes are immune cells responsible for the killing infected or cancerous cells. How cytotoxic lymphocytes mature from a naive inactive to a fully activated state as they encounter infected or malignant cells is poorly understood, and will be investigated in the current proposal. Our results will aid in the development of novel therapies for cancer and other immunological diseases.
Leveraging Genomics Strategies To Generate Adult Neurons From IPSCs And Somatic Cells
Funder
National Health and Medical Research Council
Funding Amount
$1,593,336.00
Summary
Recent advances have made it possible to derive myriad specialized human cells from stem cells or by directly reprogramming cell identity. However, these derived cells are generally arrested at a fetal developmental stage, and do not mature to function like adult cells. We will use new genomic, epigenetic, cell reprogramming, and manipulation methods to discover how to derive mature cells, aiming to generate mature neurons for use in neurobiology research, disease modeling, and drug screening.
Understanding The Origins Of Neurogenic Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$668,914.00
Summary
Brain cells that control the cardiovascular system are thought to have stopped dividing by adulthood. We recently discovered that this is not the case. Our initial findings suggest that these nascent cells might be important for maintaining normal blood pressure. This work will allow us to elucidate the function of these nascent cells and how they integrate into the circuit that controls the cardiovascular system. Our findings will be fundamental for understanding diseases such as hypertension.
Regulation Of Ribosomal RNA Gene Chromatin During Malignant Transformation.
Funder
National Health and Medical Research Council
Funding Amount
$882,486.00
Summary
The overarching goal of this proposal is to determine the molecular basis for tumour cell dependence on activated ribosomal RNA gene repeats (rDNA). Our working model posits that rDNA repeats become activated through changes in rDNA chromatin structure that include increased binding of the RNA Polymerase I transcription factor UBF.
Molecular Basis For Stress-induced Gene Regulation—a Model System To Understand Transcriptional Deregulation In Cancer And Neurological Disease
Funder
National Health and Medical Research Council
Funding Amount
$384,076.00
Summary
Deregulated gene transcription plays a critical role in cancer formation. It is therefore important to understand the molecular basis of gene transcription and how tumour cells hijack the process. In this Project, we will study the molecular basis of stress-inducible gene expression. This is particularly important for understanding the molecular basis of cancer as stress-inducible genes are activated by transcription factors implicated in breast, colon, lung, and prostate cancers.
The dramatic increase in obesity and age-related metabolic disorders demonstrates the importance of gaining a better understanding of how cells and organisms regulate their energy stores. This project will identify novel molecular mechanisms that control the enzyme CaMKK2, which is a key regulator of whole-body energy metabolism. This will provide new opportunities to inform more effective strategies to tackle metabolic diseases, and improve health in an increasingly ageing population.
How Does NF-kB2 Regulate Thymic Selection To Prevent Organ-specific Autoimmune Disease?
Funder
National Health and Medical Research Council
Funding Amount
$787,600.00
Summary
Autoimmune diseases like type 1 diabetes and thyroiditis arise from defects that cause the immune system to confuse self and non-self. Normally, this distinction is programmed in the thymus. We recently identified the gene that causes a form of autoimmune disease. We also made an important discovery about how the thymus gland regulates self-non-self discrimination. We will build on these two discoveries to gain a precise understanding of how the immune system normally avoids autoimmune disease.