The Regulation Of PI 3-kinase Second Messenger Molecules, PtdIns(3,4)P2 And PtdIns 3-P.
Funder
National Health and Medical Research Council
Funding Amount
$406,980.00
Summary
Cells respond to the external environment, hormones, and growth factors by generating messages inside the cell that send a signal to the nucleus that stimulates cell growth. One such signalling network is that produced by membrane lipids known as phosphoinositides. Enzymes that produce these signals are known as kinases. There has been considerable interest in the PI 3-kinase as the signals generated by this enzyme are increased in many human cancers. Inherited cancer syndromes have been describ ....Cells respond to the external environment, hormones, and growth factors by generating messages inside the cell that send a signal to the nucleus that stimulates cell growth. One such signalling network is that produced by membrane lipids known as phosphoinositides. Enzymes that produce these signals are known as kinases. There has been considerable interest in the PI 3-kinase as the signals generated by this enzyme are increased in many human cancers. Inherited cancer syndromes have been described that have lost the ability to switch off PI 3-kinase signals. The current project aims to investigate a recently identified enzyme called the 4-phosphatase that has the ability to terminate PI 3-kinase signals. Recent studies have shown this enzyme regulates cell growth. In addition key experiments have shown the enzyme is important as it may regulate certain strains of bacterial infection. This research proposal aims to investigate how the enzyme works to regulate these growth promoting signals. This may help us develop novel therapeutic strategies to control cell growth.Read moreRead less
A Bioinformatic Analysis And Structural Study On The Inositol Polyphosphate 5-phosphatases
Funder
National Health and Medical Research Council
Funding Amount
$421,320.00
Summary
Communication (or signaling) inside the cell enables the cell to respond to factors in its external environment, such as hormones or growth factors. The inositol phosphates and the phosphoinositides are signaling molecules that play an essential role in intracellular communication. The 5-phosphatases are able to modify these molecules and terminate, and in certain cases stimulate, signals. Failure to properly control intracellular signaling pathways may result in abnormal cell growth and cancer. ....Communication (or signaling) inside the cell enables the cell to respond to factors in its external environment, such as hormones or growth factors. The inositol phosphates and the phosphoinositides are signaling molecules that play an essential role in intracellular communication. The 5-phosphatases are able to modify these molecules and terminate, and in certain cases stimulate, signals. Failure to properly control intracellular signaling pathways may result in abnormal cell growth and cancer. Human 5-phosphatases are a complex family of enzymes: In addition to the region responsible for phosphatase activity (the catalytic domain) many members contain other protein modules . These associated domains may perform critical roles, such as regulating intracellular location and docking with other proteins. This project aims to perform a computational investigation of human 5-phosphatases and their associated domains. In particular we will search for novel phosphatases, investigate the evolutionary relationships between members of each domain family, and make testable predictions regarding the function of uncharacterized domains. This study will take advantage of data produced by the recently completed human genome project. The second aim of the project is to determine, using X-ray crystallography, the three-dimensional shape (or atomic structure) of a representative member of the 5-phosphatase family. Solving the structure of a 5-phosphatase at the atomic level is critical for understanding the nature of substrate specificity and for rational drug design.Read moreRead less
The Characterization Of A Novel Pseudokinase Regulator Of Platelet Formation
Funder
National Health and Medical Research Council
Funding Amount
$372,965.00
Summary
Mammalian cells contain a complex switchboard, which directs the cell to grow, die, multiply or move in response to external cues. When communication breaks down within the cell, diseases arise. Our studies are directed towards identifying the molecules that comprise the switchboard which directs blood cell formation. A detailed understanding of the regulators of blood cell formation will equip us with a sound starting point for designing drugs to ameliorate blood diseases.