Cytoskeletal Regulation Of Adhesion Structure And Cell Movement
Funder
National Health and Medical Research Council
Funding Amount
$60,420.00
Summary
Metastatic (secondary) cancers are a frequent cause of patient mortality. Central to the development of metastasis is cell motility-movement. A key component of cell movement is the way that cells bind and release the extra-cellular matrix as they move. By understanding how the dynamics of cell interaction with the matrix are regulated, we will identify molecules that are critical to the development of metastatic cancer and thus novel targets for inhibition of metastasis.
A Mechanotransduction Apparatus To Coordinate Epithelial Collective Cell Migration.
Funder
National Health and Medical Research Council
Funding Amount
$994,596.00
Summary
Epithelial cells migrate as physically coherent collective groups, which is necessary for normal development and is disrupted as cancers progress to become invasive and spread. Collective migration requires communication so that the behaviour of individual cells is properly coordinated. In this project we investigate how the transmission of physical force between cells allows them to communicate; and test how its disruption contributes to cancer invasion.
Regulation Of Epithelial Migration By Scribble In Development And Wound Repair
Funder
National Health and Medical Research Council
Funding Amount
$516,078.00
Summary
The movement of epithelial cells within our body (the cells that form the thin protective layer on exposed bodily surfaces such as skin and the lining of internal cavities, ducts, and organs) is essential for our normal embryonic development as well as for healing of wounds following injury. Understanding how this movement is regulated is therefore a fundamental area of medical biology. Although much is known about the mechanics of how a cell moves, the signals used to coordinate this movement s ....The movement of epithelial cells within our body (the cells that form the thin protective layer on exposed bodily surfaces such as skin and the lining of internal cavities, ducts, and organs) is essential for our normal embryonic development as well as for healing of wounds following injury. Understanding how this movement is regulated is therefore a fundamental area of medical biology. Although much is known about the mechanics of how a cell moves, the signals used to coordinate this movement so as to ensure that each cell migrates to the right place during embryonic development or in response to a wound is not well understood. A number of lines of evidence suggest that proteins required for the correct orientation of cells within our body (a property of cells known as polarity) may be essential for this process. Mutation of the polarity protein Scribble in the fly, zebrafish and mouse causes a disorganization of epithelial tissues during embryonic development. We have now shown that Scribble is required for cells to orientate correctly so as to be able to move in response to a wound in tissue culture and also during embryonic development and wound healing in the mouse. It is currently unknown how Scribble regulates migration. Here we propose to identify the molecules that Scribble regulates to coordinate cell movement during development and tissue repair. These studies will provide new insights into the fundamental process of how cell movement is coordinated and could lead to novel strategies for improved treatment of tissue injuries.Read moreRead less
Evaluation Of Circulating Endothelial Cells In Prostate Cancer Detection, Prognosis And Treatment Response
Funder
National Health and Medical Research Council
Funding Amount
$32,628.00
Summary
A current shortfall in clinical medicine is tests which discriminate different forms and severity of cancers. The project will aim to identify useful strategies based on blood factors of angiogenesis, a fundamental process in tumour growth and dissemination. Development of such tests may permit better delineation of prognosis, act as a surrogate marker of treatment efficacy and aid in developing and optimizing new treatments, key areas of need in prostate cancer.
Development Of New Therapy For Children Suffering From Epidermolysis Bullosa
Funder
National Health and Medical Research Council
Funding Amount
$307,946.00
Summary
Skin blistering diseases affect 1:17,000 live births. Constant skin blistering affects the quality of life and is often fatal in the first 2 years. For those children that survive, skin blistering leads to scarring, fusion of the fingers, infections and skin cancers. To date, the management of blistered children is mainly supportive and no specific cure exists. This study will develop new therapies for children with skin blistering diseases and will significantly improve their quality of life.
THE ROLE OF THE TETRASPANINS CD37 AND CD82 IN LEUKOCYTE MIGRATION
Funder
National Health and Medical Research Council
Funding Amount
$370,902.00
Summary
White blood cells must be able to migrate to fight infection. For instance, immune responses are started by the migration of one type of white blood cells to the lymph node. Also, once activated white blood cells migrate out of the circulation to the site of infection where they can kill bacteria and viruses. This grant studies 2 proteins that control white blood cell migration. These proteins may one day be targets for drugs that either promote immunity or reduce inflammation.
Chemokine Mediated Collaboration Between T Cells And Dendritic Cells During Inflammation
Funder
National Health and Medical Research Council
Funding Amount
$342,384.00
Summary
The immune system protects us from foreign pathogens by using multiple immune cell types. Immune cells need to migrate and interact with each other in order to function properly. When immune cells fail to migrate appropriately, autoimmune diseases or immunodeficiency may develop. By understanding the molecules regulating their migration, we can promote or inhibit immune cell function.
Cellular Mechanisms Controlling Neural Crest Cell Migration Along The Developing Gut
Funder
National Health and Medical Research Council
Funding Amount
$368,895.00
Summary
Within the wall of the gut, there are a large number of neurons, probably more than are in the spinal cord. These enteric neurons play an essential role in controlling a number of gut functions including peristalsis (the propulsion of contents along the gut). Most of the neurons in the gut, including those in the large intestine, arise from precursors that emigrate from the hindbrain, and then migrate into and along the gastrointestinal tract during development. The colonization of the gut by ne ....Within the wall of the gut, there are a large number of neurons, probably more than are in the spinal cord. These enteric neurons play an essential role in controlling a number of gut functions including peristalsis (the propulsion of contents along the gut). Most of the neurons in the gut, including those in the large intestine, arise from precursors that emigrate from the hindbrain, and then migrate into and along the gastrointestinal tract during development. The colonization of the gut by neuron precursors takes 5 days in mice and 6 weeks in humans. Studies of the mechanisms controlling the migration of neuron precursors along the gut have provided fundamental information about cell migration in general. Genetic studies in humans and mice have identified some of the genes that are necessary for the migration of neuron precursors along the gastrointestinal tract, but for some of the key genes, their precise role is unknown. We have recently developed a method for imaging living neuron precursors migrating through explants of embryonic mouse gut. In the current proposal we will meld imaging and genetic studies to understand how mutations in particular genes lead to migration defects. In particular, how do particular mutations affect the migratory behaviour of enteric neural precursors? We have also previously shown that neuron precursors migrate along the gut in close association with axons. We will examine the nature of these interactions - in particular, who is following whom, and what happens when cell migration and axon growth are uncoupled? These studies, which will investigate a number of critical aspects of the migration of neural precursors into and along the developing gut, are central to understanding how the enteric nervous system is established along the gastrointestinal tract.Read moreRead less