New Mediators Of GPCR-growth Factor Receptor Transactivation
Funder
National Health and Medical Research Council
Funding Amount
$607,842.00
Summary
Hormones bind to receptors on the surface of cells. Receptors can modify each other’s function and this “cross-talk” is important for the receptors for a peptide hormone (termed angiotensin) and a growth factor receptor (EGFR), which are major regulators of the cardiovascular system. We have identified a number of mediators of the angiotensin-EGFR crosstalk and this current grant aims to use molecular and cellular and in vivo approaches to examine the molecular basis of their actions.
Regulation Of The Signalling Efficiency Of The T Cell Antigen Receptor
Funder
National Health and Medical Research Council
Funding Amount
$456,557.00
Summary
An immune response starts with activation of the T cell antigen receptor (TCR). How T cell receptor signalling begins, however, is not well understood. We have developed a novel imaging approach that allows us to directly observe what happens after an antigen binds to the receptor. The research will provide mechanistic insights into how T cells sense and discriminate antigens. This knowledge will aid the development of cancer immunotherapies and vaccines.
Spatial And Temporal Dimensions Of Mu-opioid Receptor Signalling: Implications For The Development Of Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$799,316.00
Summary
The use of morphine as an analgesic is still limited by undesirable side effects such as tolerance. Despite decades of research, the mechanisms behind the development of tolerance are poorly understood. The ? opioid receptor is a protein expressed at the surface of the cells that is the target of morphine. This project will investigate the signalling events triggered by opioids with unprecedented resolution and will aim to elucidate why morphine elicits more tolerance than other opioid drugs.
Characterising The Novel Signalling Mechanism For A New Interferon
Funder
National Health and Medical Research Council
Funding Amount
$525,485.00
Summary
We have discovered a new regulatory protein called interferon epsilon, made in the female reproductive tract and is crucial for protection against bacterial( Chlamydia) and viral (Herpes Simplex Virus) infections. However, we are yet to understand how it interacts with target cells. This grant will study how IFN? binds to cells and the nature of the signals it transmits. This will help us understand its role in disease and its clinical potential
Biology Of EGFR Mutations In Glioblastoma Multiforme
Funder
National Health and Medical Research Council
Funding Amount
$287,445.00
Summary
The epidermal growth factor receptor (EGFR) is a protein that has a critical role in the development of normal cells. In glioma, the most lethal of the brain cancers, the EGFR is altered. These alterations result in uncontrolled activation of the EGFR, causing signals that promote the growth and survival of brain cancer. This grant seeks to understand the nature of the signals mediated by the altered EGFR, in turn helping us develop better therapeutics for the treatment of this deadly cancer.
A Novel Class Of Negative Regulators Of Interleukin-6 Signalling
Funder
National Health and Medical Research Council
Funding Amount
$626,950.00
Summary
Cytokines are protein messengers that activate the immune system to fight infections. When they are too active they cause inflammation and autoimmune diseases so their activity needs to be tightly controlled. We have discovered a new family of regulators (the MARCH proteins) that inhibit cytokine activity by routing cytokine receptors for destruction. We aim to understand how this process works in detail and the role of MARCH proteins in vivo in ameliorating autoimmune diseases.
Characterization Of SgK269, A Master Regulator Of Growth Factor Receptor Signalling
Funder
National Health and Medical Research Council
Funding Amount
$623,751.00
Summary
Perturbed signaling within a cell can cause multiple diseases, including cancer. SgK269 is a scaffold protein involved in signaling and implicated in breast, colon and pancreatic cancer. By determining the signaling mechanism and function of the SgK269 scaffold, this work will provide novel and important insights into a key regulator of cell signaling, and reveal potential strategies for therapeutic targeting of the SgK269 scaffold that could be utilized in cancer treatment.
Control Of The Ras/Erk Signaling Pathway By The Brahma Chromatin-remodeling Complex
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
Hormones bind and initiate molecular signals within cells to proliferate or change into specific cell types. This is important for growth and development of different tissues. A pathway which is critical for transmitting the effects of hormones in cells is the Ras pathway. New studies by the applicants indicate that the Brahma complex, a molecule important in controlling the levels of proteins in cells, activates the Ras pathway. This project will define how Brahma controls the Ras pathway.
Characterization Of A Novel IFNbeta Signaling Axis Mediated Via IFNAR1
Funder
National Health and Medical Research Council
Funding Amount
$353,754.00
Summary
Type I interferons (IFNs) play an important role in regulating immune responses to pathogens and tumors and are used therapeutically. This project will investigate a novel IFN signaling axis that we have recently characterized that is mediated via the low affinity IFN receptor, IFNAR1. This signaling axis occurs independently of the high affinity IFN receptor IFNAR2 and contributes to lethality in a model of septic shock.
Histone deacetylase functions in immune cells. This project aims to define how an enzyme (a histone deacetylase) enables innate immune cells (macrophages) to respond to specific danger signals, such as those activating Toll-like Receptors. To identify processes that provide specificity to signal transduction pathways, this project will characterise protein targets and biological functions of a specific class IIa histone deacetylase in macrophages. This project expects to result in an understandi ....Histone deacetylase functions in immune cells. This project aims to define how an enzyme (a histone deacetylase) enables innate immune cells (macrophages) to respond to specific danger signals, such as those activating Toll-like Receptors. To identify processes that provide specificity to signal transduction pathways, this project will characterise protein targets and biological functions of a specific class IIa histone deacetylase in macrophages. This project expects to result in an understanding of histone deacetylases and protein deacetylation in immune cell responses which can be harnessed to manipulate cell functions for basic science and biotechnology uses.Read moreRead less