Inductive Interactions Between Lens And Optic Cup Specify Cell Fates
Funder
National Health and Medical Research Council
Funding Amount
$265,500.00
Summary
Normal eye development depends on interactions between embryonic eye tissues. In the front part of the eye inductive interactions between lens and optic vesicle are important for the formation and growth of lens, ciliary body and iris. Our recent studies indicate that a family of developmentally important growth factors, the Wnts, plays key roles in this process. Our proposed studies will examine, for the first time, the role of Wnts in lens, ciliary body and iris development. Specific experimen ....Normal eye development depends on interactions between embryonic eye tissues. In the front part of the eye inductive interactions between lens and optic vesicle are important for the formation and growth of lens, ciliary body and iris. Our recent studies indicate that a family of developmentally important growth factors, the Wnts, plays key roles in this process. Our proposed studies will examine, for the first time, the role of Wnts in lens, ciliary body and iris development. Specific experimental outcomes will show if Wnts are important in promoting the formation and maintenance of the front part of the lens, the lens epithelium. The outcomes will also give us information on the molecules that mediate the effects of Wnts on lens cells and if regulatory factors from the lip of the optic cup-ciliary body can influence the pathways by which Wnts can influence the lens cells. In addition we will learn if lens-derived Wnts have a role in the formation of ciliary body and iris. Identifying factors that regulate the formation of eye tissues is fundamental to understanding the molecular basis of eye disease. For example, cataract is the most common cause of blindness in the world. Cataract surgery is the most common surgical procedure and is placing an ever-increasing burden on health care budgets. Cataracts that most commonly require surgery usually involve abnormal growth and behaviour of lens cells such as occurs in posterior subcapsular cataract and posterior capsular opacification (also known as aftercataract because it occurs subsequently to cataract surgery). Identifying molecules and mechanisms that are involved in normal formation and growth of lens cells is fundamental to understanding these diseases. In addition, as it is well known that the lens is required for the normal formation of the front part of the eye, including the ciliary body and iris, results from this study may also shed light on some developmental abnormalities such as small eye.Read moreRead less
Mimetics Of Natural Triggers Of Innate Immunity As Vaccines
Funder
National Health and Medical Research Council
Funding Amount
$241,650.00
Summary
Knowledge of what properties of an antigen allow it to induce an immune response is central to our understanding of how we fight disease and how we can vaccinate effectively against disease. The fact that an antigen is foreign to the host is not in itself sufficient for it to initiate the series of events that must take place in order to activate B and T lymphocytes, the cells involved in immunity. For vaccine purposes, antigens must be delivered with substances called adjuvants to be effective. ....Knowledge of what properties of an antigen allow it to induce an immune response is central to our understanding of how we fight disease and how we can vaccinate effectively against disease. The fact that an antigen is foreign to the host is not in itself sufficient for it to initiate the series of events that must take place in order to activate B and T lymphocytes, the cells involved in immunity. For vaccine purposes, antigens must be delivered with substances called adjuvants to be effective. There is very little known about how adjuvants actually work but many of the highly effective experimental adjuvants contain an immunostimulant which is usually either whole dead bacteria or components of the cell walls of bacteria or other organisms. From evidence emerging in the literature and our own experimental observations, we have begun to understand the requirements for and the chain of events leading to immune response induction. The interaction of certain lipid-containing groups, present on antigens from pathogenic organisms, with a specialised type of cell, the dendritic cell, is a key event in this process. We have designed synthetic mimics of lipid-containing moieties from bacteria and coupled them to unrelated parts of viral proteins. We showed that these lipopeptides can elicit potent anti-viral immune responses and long lived memory responses. The experiments outlined in this proposal will examine the interaction of these and other second generation lipopeptides with dendritic cells. We will determine whether these can bind to particular molecules on the dendritic cell surface to initiate a specific series of signals leading to immune induction and if so we will seek to use different lipid groups to trigger the immune response in different and predictable ways. The outcomes of this work may have a major impact on the design of new vaccines as well as increase our understanding of how the immune system is triggered to respond to invading organisms.Read moreRead less
Derivation Of Pancreatic Beta Cells From Embryonic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$2,968,050.00
Summary
People with type 1 diabetes require regular insulin injections because the organ that normally makes insulin, the pancreas, no longer functions. The goal of this program is to derive human fetal pancreas tissues from embryonic stem cells. Such tissue could be used to replace the missing insulin producing cells in people with type 1 diabetes. The program brings together expertise in ES cell biology at Monash University and the leading diabetes research at the Walter and Eliza Hall Institute.
A Double Blind Randomised Placebo Controlled Trial Of Melatonin As An Adjuvant Agent In Induction Of Labour
Funder
National Health and Medical Research Council
Funding Amount
$384,566.00
Summary
Induction of labour, a common obstetric intervention fails in almost 40% of first time mothers. There is evidence to suggest that the endogenous hormone melatonin has important roles in the progress of labour. We will undertake a double-blind randomised placebo controlled trial of melatonin supplementation to improve the success of induction of labour in first time mothers. We will also assess the economic impact of melatonin supplementation at induction of labour.
Generation Of Renal Cells From Human Embryonic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$281,805.00
Summary
This proposal will gather evidence to show that human embryonic stem cells are capable of forming specific cell types of the embryonic human kidney. Once this is established, methods for the maintenance and directed differentiation of these cells to cell types of the mature kidney will be identified and improved. The results obtained will provide a base for future exploration of the possibility that human embryonic stem cell derived cells can be used to treat damaged kidneys.
Lymph Node Stromal Cells: Phenotype, Function And The Induction Of Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$340,550.00
Summary
Autoimmune diseases, where the immune system kills our own tissue, are initiated in lymph nodes. Lymph node structural cells, called fibroblastic reticular cells (FRC), kill white blood cells capable of reacting against the body's own proteins. FRC could be used to prevent diseases like type I diabetes, but little is understood about their actions. We propose to study the way they work and their potential to prevent or treat autoimmunity when transplanted in mice.