Affinity-based Profiling Of Bacterial Fe(III)-siderophore Receptors: Design Strategies For Antibiotics And Iron Overload
Funder
National Health and Medical Research Council
Funding Amount
$275,016.00
Summary
In order to establish an infection, bacteria compete with the host for iron, which is in scarce supply. To access iron, bacteria produce compounds called siderophores which bind iron strongly. The iron-siderophore complex, which is unique to each bacterium, is recognised by specific receptors at the bacterial cell-surface and imported for use. In this project, we are using modified siderophores as platforms for bacteria-specific drug design with the aim of producing new antibiotics.
Understanding The Pharmacoregulation Of The Extracellular Calcium Sensing Receptor.
Funder
National Health and Medical Research Council
Funding Amount
$744,943.00
Summary
Calcium sensing receptors (CaSR) are important regulators of hormone release and modulators of kidney transport, digestion-absorption-satiety and bone mass. In each case, CaSRs adopt a characteristically distinct activating mechanism that we will unravel in detail sufficient for the development of novel chemotherapies e.g., for osteoporosis and obesity. We also anticipate early application of CaSR-based therapies to clinically significant genetic disorders e.g., neonatal hyperparathyroidism.
The Regulatory Role Of Clec12A In Antigen Presentation And Inflammatory Disease
Funder
National Health and Medical Research Council
Funding Amount
$1,381,077.00
Summary
The immune system maintains a balance between initiating immune responses to infections and suppressing immune responses in health. We have identified, on the surface of specialised immune cells, a protein that is critical for regulating immune responses and dampening down inflammation. This proposal aims to determine how this protein functions in health and under inflammatory conditions, and to develop approaches based on its molecular interactions to reduce inflammatory disease.
TGF-beta Receptor Type III In Normal And Malignant Liver Growth: Modulation Of TGF-beta Activity
Funder
National Health and Medical Research Council
Funding Amount
$361,527.00
Summary
The transforming growth factor-beta (TGF-beta) family is a group of multifunctional growth factors which regulates a number of important cellular functions, including proliferation, differentiation, and survival. Therefore, the proper functioning of this system is critical for the normal development and maintenance of most tissues. Dysregulation of this system is implicated in many pathological conditions, including cancer. The actions of TGF-beta are mediated by three cell surface proteins, ter ....The transforming growth factor-beta (TGF-beta) family is a group of multifunctional growth factors which regulates a number of important cellular functions, including proliferation, differentiation, and survival. Therefore, the proper functioning of this system is critical for the normal development and maintenance of most tissues. Dysregulation of this system is implicated in many pathological conditions, including cancer. The actions of TGF-beta are mediated by three cell surface proteins, termed the type I, II and III TGF-beta receptors. The type I and II receptors are required for transmitting the TGF-beta signal to the nucleus of the cell. Existing data suggest that the type III receptor is not required in TGF-beta signaling but is required for the regulation of TGF-beta levels at the cell surface. However, the function of this receptor and its role in TGF-beta mediated regulation of cell growth and survival is poorly understood. Our earlier work indicated that the TGF-beta type III receptor is particularly important for limiting TGF-beta activity during normal liver development. The currently proposed research will examine the effects of type III receptor deficiency on liver cells in the adult mouse in order to determine whether alterations in cell growth and survival occur in the absence of this receptor. Becauses TGF-beta is a key regulator of liver growth and altered levels of TGF-beta in liver have been demonstrated to lead to liver cancer in mice, we anticipate that targeting the deletion of the type III gene to liver cells will provide a system in which to study compromised regulation of cell growth. This work is therefore expected to yield information relevant to the role of this receptor in TGF-beta regulated processes in normal and cancerous growth. Because the type III receptor appears to control the level of TGF-beta activity, this work will allow further evaluation of the potential for therapeutic uses for type III receptor-like agents.Read moreRead less
Molecular Basis For The Efficient Processing Of Antigens Taken Up By Clec9A, A DAMP Receptor On Dendritic Cells
Funder
National Health and Medical Research Council
Funding Amount
$1,302,392.00
Summary
Dendritic cells (DC) of the immune system utilise specific receptors to sense danger signals from their environment. We identified a DC danger receptor, Clec9A, which recognizes and induces immunity to “dangerous” dead cells eg. infected cells or killed tumour cells. We will investigate how DC use Clec9A to process “dangerous” dead cells, and the factors that control the potency of this immune response. This will enable us to develop novel immunotherapies for infectious diseases and cancer.
Enhancing Vaccine Efficacy By Harnessing Dendritic Cell Receptors And Their Unique Properties
Funder
National Health and Medical Research Council
Funding Amount
$687,519.00
Summary
Potent vaccination might be achieved by using monoclonal antibodies as magic bullets to target vaccines to special cells in the body. We show that targeting these special cells by using monoclonal antibodies that recognise Clec9A is effective, perhaps because it brings several different immune cells together so that they orchestrate very efficient immune responses. This application investigates how targeting Clec9A allows strong vaccination so that we can apply this to new generation vaccines.