Design And Engineering Of Adnectins For Diagnosis And Therapy
Funder
National Health and Medical Research Council
Funding Amount
$803,152.00
Summary
This project aims to engineer a naturally-occurring human protein, called an adnectin, to produce molecules that are able to bind specific targets in the human body, and as such may be used in the diagnosis and therapy of a range of diseases.
Glycosyltransferase Effectors Of Enteropathogenic E. Coli And Salmonella
Funder
National Health and Medical Research Council
Funding Amount
$320,891.00
Summary
This project aims to characterise the mechanisms of disease caused by bacterial pathogens including Salmonella and enteropathogenic E. coli. These pathogens cause a significant amount of diarrhoeal disease and mortality worldwide particularly in infants and in countries where water sanitation is poor. I aim to investigate the specific mechanisms the bacteria employ to manipulate and avoid our immune response during infection in order to better understand and combat diarrhoeal disease.
Throughout our lives cells must die and be replenished. One way multicellular organisms remove unwanted cells is through a process called programmed cell death. This process eliminates redundant, damaged or infected cells by a program of cell suicide. We are studying the underlying molecular mechanisms of this cell suicide in order to design new pharmaceuticals to treat illnesses caused by a disruption in programmed cell death. The fine balance between living and dying cells must be maintained a ....Throughout our lives cells must die and be replenished. One way multicellular organisms remove unwanted cells is through a process called programmed cell death. This process eliminates redundant, damaged or infected cells by a program of cell suicide. We are studying the underlying molecular mechanisms of this cell suicide in order to design new pharmaceuticals to treat illnesses caused by a disruption in programmed cell death. The fine balance between living and dying cells must be maintained and if this balance is lost then disease may result. A reduced level of cell death may result in cancers while too many dying can contribute to degenerative diseases such as Alzheimer's disease and stroke. Currently many of these diseases do not have effective treatments. We will determine the three-dimensional structures of key proteins involved in programmed cell death and use this information to design drugs that can interfere with the molecular processes involved in signalling cell death. Such drugs may prove useful new therapies in a wide range of diseases caused by a breakdown in the biochemical paths to cell death.Read moreRead less
The regulation of signalling molecules in Saccharomyces Cerevisiae by inositol polyphosphate 5-phosphatases. Phosphoinositide signalling molecules regulate the actin cytoskeleton, secretion, vesicular trafficking and cell growth and death. We have identified, cloned and characterised a family of signal terminating enzymes called inositol polyphosphate 5-phosphatases (5-phosphatases) that regulate phosphoinositide signalling molecules. We have cloned and characterised four distinct 5-phosphatases ....The regulation of signalling molecules in Saccharomyces Cerevisiae by inositol polyphosphate 5-phosphatases. Phosphoinositide signalling molecules regulate the actin cytoskeleton, secretion, vesicular trafficking and cell growth and death. We have identified, cloned and characterised a family of signal terminating enzymes called inositol polyphosphate 5-phosphatases (5-phosphatases) that regulate phosphoinositide signalling molecules. We have cloned and characterised four distinct 5-phosphatases in the yeast Saccharomyces Cerevisiae and demonstrated by both deletion and overexpression studies that these enzymes regulate the actin cytoskeleton, endocytosis and secretion. This research proposal aims to investigate the signalling complexes the 5-phosphatases form with specific actin binding and or regulatory proteins, investigate the complex interactions of phosphoinositide lipid phosphatases and the roles they play in regulating secretion from the endoplasmic reticulum and finally characterize a novel 5-phosphatase that we have recently identified. Collectively the outcome of these studies will provide novel information about the functionallly significant signalling pathways regulated by this important enzyme family.Read moreRead less
The role of PtdIns(4,5)P2 in cellular responses in Saccharomyces cerevisiae. This grant application falls under the criteria of frontier technologies in genomics/phenomics and complex systems. We are characterizing a highly conserved network of signaling molecules regulated by complex large families of enzymes that regulate the bending of membranes, and cellular events including cell division in plants, yeast and mammalian cells. We have developed cutting edge novel technologies to localize sign ....The role of PtdIns(4,5)P2 in cellular responses in Saccharomyces cerevisiae. This grant application falls under the criteria of frontier technologies in genomics/phenomics and complex systems. We are characterizing a highly conserved network of signaling molecules regulated by complex large families of enzymes that regulate the bending of membranes, and cellular events including cell division in plants, yeast and mammalian cells. We have developed cutting edge novel technologies to localize signaling on specific intracellular membranes and visualise the role cellular lipids play in forming tubules in cells. This project will result in the presentation of Australian research at international forums and support the training of PhD students.Read moreRead less
Mitochondrial biogenesis in mammalian cells. This project aims to understand the inner workings of a molecular machine involved in mitochondrial protein biogenesis. Mitochondria are essential organelles that provide the bulk of cellular energy. Genesis of the organelle relies on the coordinated synthesis and transport of both proteins and lipids that make up the organelle. This project plans to define the architecture of the molecular machine, outline how its components function, and explore the ....Mitochondrial biogenesis in mammalian cells. This project aims to understand the inner workings of a molecular machine involved in mitochondrial protein biogenesis. Mitochondria are essential organelles that provide the bulk of cellular energy. Genesis of the organelle relies on the coordinated synthesis and transport of both proteins and lipids that make up the organelle. This project plans to define the architecture of the molecular machine, outline how its components function, and explore the relationship between proteins and lipids in mitochondrial genesis. These results are expected to provide knowledge about how mitochondrial creation is regulated.Read moreRead less
Examination of the Calcium Signalling Dynamics Linked to Integrin Adhesion Utilising a Novel Micro-imaging System. This study aims at increasing our understanding of the fundamental cell processes that allow cells to adhere to surfaces. The proposed study will lead to a greater understanding of the calcium signalling mechanisms that are fundamental to diverse biological phenomena such as, tissue regeneration and repair, blood clotting, cancer metastasis, and neuronal cell function. From a preven ....Examination of the Calcium Signalling Dynamics Linked to Integrin Adhesion Utilising a Novel Micro-imaging System. This study aims at increasing our understanding of the fundamental cell processes that allow cells to adhere to surfaces. The proposed study will lead to a greater understanding of the calcium signalling mechanisms that are fundamental to diverse biological phenomena such as, tissue regeneration and repair, blood clotting, cancer metastasis, and neuronal cell function. From a preventative health perspective, the investigation of platelet calcium signalling will greatly accelerate the development of new pharmaceuticals to tackle acute and chronic cardiovascular diseases, such as stroke, heart attack and artherosclerosis. Read moreRead less
A novel role for the proteins Scribble & Dlg in the formation of cell protrusions and their effects on cell function. Dlg and Scribble are recently discovered proteins that are required during development, immune regulation, neural signalling and tumour suppression. Understanding how they work will enable the development of diagnostic and therapeutic tools that have the potential to influence an enormous range of diseases, from cancer to immunodeficiencies and autoimmune diseases. Researchers at ....A novel role for the proteins Scribble & Dlg in the formation of cell protrusions and their effects on cell function. Dlg and Scribble are recently discovered proteins that are required during development, immune regulation, neural signalling and tumour suppression. Understanding how they work will enable the development of diagnostic and therapeutic tools that have the potential to influence an enormous range of diseases, from cancer to immunodeficiencies and autoimmune diseases. Researchers at the PeterMac perform world-leading research into the biology of Scribble and Dlg, and their role in cancer biology and immune function. The mechanistic insight provided by this project will continue that tradition, and facilitate translation of our basic research into clinical applications in important disease areas.Read moreRead less