Defining The Role And Contribution Of Cdc37 To Signal Transduction And Tumourigenesis By Src-family Kinases
Funder
National Health and Medical Research Council
Funding Amount
$411,430.00
Summary
Cells respond to extracellular stimuli, such as growth factors and hormones, by activating intracellular networks of signaling molecules. It is the activation of these signaling networks that is ultimately responsible for mediating the biological responses of cells to extracellular stimuli (e.g. insulin stimulating glucose metabolism by cells). Members of the Src-family of tyrosine kinases are paramount among signaling molecules, as they are able to directly initiate the activation of a cascade ....Cells respond to extracellular stimuli, such as growth factors and hormones, by activating intracellular networks of signaling molecules. It is the activation of these signaling networks that is ultimately responsible for mediating the biological responses of cells to extracellular stimuli (e.g. insulin stimulating glucose metabolism by cells). Members of the Src-family of tyrosine kinases are paramount among signaling molecules, as they are able to directly initiate the activation of a cascade of signaling networks that regulate the activity of the cell. Significantly though, the inappropriate activation of Src-family kinases has been implicated in the development of cancer, particularly breast and colon cancer, in humans. To fulfill their signaling functions however, Src-family kinases must first be folded into an active conformation upon their synthesis in the cell then be maintained in this conformation. Although previous studies, including our own, have implicated a class of proteins called molecular chaperones in this process, little is known about how the folding of Src-family kinases by these proteins is achieved and regulated. The overall aim of this study is to determine how the folding of Hck, one member of the Src-family of tyrosine kinases, into a conformation that enables it to participate in signaling networks is achieved and regulated. It is expected that the results from this study will provide significant new insight into how this process might influence the ability of cells to respond to extracellular stimuli and potentially contribute to the conversion of a normal cell into one with tumourigenic properties. Findings from this project may be particularly important in the context of human cancer. A better knowledge of how the signaling activity of Src-family kinases is regulated by molecular chaperones might provide a new avenue of investigation for the identification of novel chemotherapeutic agents.Read moreRead less
Fluorescence Analysis Of The EGFreceptor Signalling Network
Funder
National Health and Medical Research Council
Funding Amount
$490,750.00
Summary
Receptors are cell-surface molecules that enable the cell to receive chemical messages from the outside environment and transmit these signals to the inside of cell. These messages tell the cells to grow, divide or die. The Epidermal Growth Factor Receptor is linked to a variety of cell signalling pathways that are critical to the normal functioning of cells. Conversely, abberations in Epidermal Growth Factor-mediated cell signalling leads to many types of cancers. A basic understanding of how t ....Receptors are cell-surface molecules that enable the cell to receive chemical messages from the outside environment and transmit these signals to the inside of cell. These messages tell the cells to grow, divide or die. The Epidermal Growth Factor Receptor is linked to a variety of cell signalling pathways that are critical to the normal functioning of cells. Conversely, abberations in Epidermal Growth Factor-mediated cell signalling leads to many types of cancers. A basic understanding of how the receptor is turned off or on is essential to designing drugs that can specifically inhibit its hyperproliferative response. High resolution structures of a key part of the Epidermal Growth Factor Receptor have identified several structural forms of the receptor that are providing valuable clues as to the structural basis for receptor activation. Armed with this information and advanced microscopic imaging technology we are in the unique position to probe receptor activation in living cells. This project seeks to determine which structural form of the receptor is responsible for transmission of cellular messages and how it is impaired in cancerous cells.Read moreRead less
Novel G-protein Coupled Receptor Interactions And Complexes With Distinct Function And Pharmacology
Funder
National Health and Medical Research Council
Funding Amount
$246,760.00
Summary
G protein coupled receptors (GPCRs) are the target in the human body for most of today's medicines. Almost all pharmaceutical companies market drugs that are GPCR agonists or antagonists aimed at diverse disease states. Our research is focused on the molecular basis of drug recognition and signalling by GPCRs. We use genetic engineering techniques to create new receptors and mutant receptors in order to identify the functional domains of these signalling molecules. We have recently established a ....G protein coupled receptors (GPCRs) are the target in the human body for most of today's medicines. Almost all pharmaceutical companies market drugs that are GPCR agonists or antagonists aimed at diverse disease states. Our research is focused on the molecular basis of drug recognition and signalling by GPCRs. We use genetic engineering techniques to create new receptors and mutant receptors in order to identify the functional domains of these signalling molecules. We have recently established a novel approach based on proximity-dependent fluorescent technologies to explore receptor interactions and have described the formation of functional G-protein coupled complexes in living cells. This project is to discover new receptor combinations which could potentially affect signalling pathways and redirect cellular responses. Investigation of the mechanisms involved in turning on and off the body s response to stimuli would provide valuable information for drug design and treatment of GPCR-related conditions. We have chosen to use two GPCRs as models for our study of the mechanisms controlling receptor driven cellular responses and the interactions between cellular components-proteins behind this control. Firstly, the gonadotropin releasing hormone receptor (GnRHR), a protein located in the pituitary which is pivotal in the control of reproduction and secondly, the thyrotropin releasing hormone receptor (TRHR), similarly located and involved in modulating thyroid and metabolic function. We will investigate the way these receptors interact with other cellular proteins in order for them to function. Ultimately this will provide a better understanding of how these clinically important proteins function and pave the way for the development of clinical applications that target these receptor systems, resulting in the effective treatment of a wide range of conditions and diseases, including pain, migraine, certain forms of cancer, neurological and reproductive disorders.Read moreRead less