The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammator ....The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammatory or allergic disease, such as arthritis or asthma. This team of researchers from the Hanson Institute in Adelaide, combining expertise in molecular and cell biology, protein chemestry, structual biology and animal models, has been working together for over 10 years, investigating the molecular mechanisms involved in controlling the formation and activities of blood vessels and white blood cells. This program seeks to further that understanding, and to develop drugs that have the potential of ameliorating the inflammatory condition.Read moreRead less
The insulin-like growth factor system is involved in promoting cancer growth and survival against treatment with chemotherapy. Insulin-like growth factors-I and -II act via cell surface receptors (IGF-1R). Much effort has been applied to blocking the action of insulin-like growth factors via IGF-1R. However, recently a second mechanism has been identified by which the insulin-like growth factors are involved in cancer. Insulin-like growth factor-II can also promote cancer growth and survival via ....The insulin-like growth factor system is involved in promoting cancer growth and survival against treatment with chemotherapy. Insulin-like growth factors-I and -II act via cell surface receptors (IGF-1R). Much effort has been applied to blocking the action of insulin-like growth factors via IGF-1R. However, recently a second mechanism has been identified by which the insulin-like growth factors are involved in cancer. Insulin-like growth factor-II can also promote cancer growth and survival via an alternative form of the insulin receptor. We will join with our international collaborator to bring together a team of biochemists and protein structural biologists who are world leaders in understanding protein interactions in the insulin and insulin-like growth factor systems. As relatively little is known about this alternate pathway we propose to define the mechanism of binding of insulin-like growth factor-II to the alternate insulin receptor isoform. Using a combination of well-established and novel techniques we will map the interaction. This knowledge will allow design of specific inhibitors to block the action of insulin-like growth factor-II in promotion of cancer cell growth and survival without disruption of the metabolic actions of the insulin receptor.Read moreRead less
A major feature of tumour progression and cardiac hypertrophy (enlarged heart) is accelerated cell growth and protein synthesis. Moreover, increased synthesis of ribosomes (the protein synthetic machinery) is associated with malignancy and hypertrophy suggesting that it may play a causal role in tumour formation and cardiac disease. In support of this, specific inhibitors of both ribosome biogenesis and function are extremely effective at inhibiting the growth of some tumours and vascular smooth ....A major feature of tumour progression and cardiac hypertrophy (enlarged heart) is accelerated cell growth and protein synthesis. Moreover, increased synthesis of ribosomes (the protein synthetic machinery) is associated with malignancy and hypertrophy suggesting that it may play a causal role in tumour formation and cardiac disease. In support of this, specific inhibitors of both ribosome biogenesis and function are extremely effective at inhibiting the growth of some tumours and vascular smooth muscle. This study will examine the mechanisms that regulate ribosome synthesis. Specifically it focuses on a transcription factor termed UBF whose activity we think is critical for the regulation of the synthesis of the ribosomal RNA, the catalytic backbone of the ribosomes. Understanding the molecular mechanism(s) controlling UBF function will lead to a better comprehension of how cells modulate synthesis of functional ribosomes and how this process is deregulated during disease states associated with deregulated protein synthesis and growth such as cardiac hypertrophy and cancer.Read moreRead less
Selective secretion: a novel mechanism of protein trafficking and its role in Phytophthora pathogenicity. Agriculturally important crops and over 3,000 Australian native plants are susceptible to diseases caused by Phytophthora, fungus-like pathogens that live in the soil. Economic losses exceed $200m pa and natural ecosystems are being destroyed on a vast scale. Phytophthora control depends upon a limited number of chemical inhibitors to which resistance has already emerged. New control stra ....Selective secretion: a novel mechanism of protein trafficking and its role in Phytophthora pathogenicity. Agriculturally important crops and over 3,000 Australian native plants are susceptible to diseases caused by Phytophthora, fungus-like pathogens that live in the soil. Economic losses exceed $200m pa and natural ecosystems are being destroyed on a vast scale. Phytophthora control depends upon a limited number of chemical inhibitors to which resistance has already emerged. New control strategies are urgently needed. This research will investigate a novel mechanism for release of infection material recently discovered in Phytophthora cells, and will increase our understanding of how Phytophthora infects host plants, providing vital information required for the development of new, environmentally-safe inhibitors. Read moreRead less
Biomathematical Analysis Of Cell Invasion: Migration Of Neural Crest Cells To Form The Enteric Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$449,484.00
Summary
Extending scientific studies to a mathematical level is the way to produce deep understanding and control. Mathematics has been applied less to biology, particularly the biology of development, than to other branches of science, no doubt due to the innate complexity and technical difficulties of seeing and measuring what is actually going on. Labelling, imaging and computational tools to visualise biological processes are only now becoming available. To build our bodies during embryonic developm ....Extending scientific studies to a mathematical level is the way to produce deep understanding and control. Mathematics has been applied less to biology, particularly the biology of development, than to other branches of science, no doubt due to the innate complexity and technical difficulties of seeing and measuring what is actually going on. Labelling, imaging and computational tools to visualise biological processes are only now becoming available. To build our bodies during embryonic development, cells must move; this is called cell migration. The same process occurs throughout life in wound repair. Uncontrolled migration is the hallmark of malignant cancers, where it is called invasion. The molecular mechanisms in cells that allow them to move are just beginning to be understood. However, the big questions determining the general rules of migration are more difficult to approach. Here are some examples of such questions. When to migrate? Where to migrate to? Which pathways? How many cells to migrate? How far? How fast? How to stop? Such simple questions are still unanswered. We are pioneering a novel and unique approach combining imaging of real cells migrating in real tissues (digital time-lapse movies) with mathematical modelling to understand the driving forces of cell migration-invasion. This technology is here applied to a particular example of cell migration where precursor nerve cells migrate all the way along the length of the gastro-intestinal tract in early development. This process gives rise to fatal birth defects associated with migration failure. The development of the nervous system in the gut has features in common with all other migrations and invasions, normal and pathological. A much more profound knowledge of the big picture of the developmentally and clinically crucial process of cell migration-invasion will emerge from this marriage of biological experimentation and mathematical modelling.Read moreRead less
Deregulation Of Ribosome Signalling, Synthesis And Function During Malignant Transformation.
Funder
National Health and Medical Research Council
Funding Amount
$522,773.00
Summary
A major feature of tumour progression is accelerated cell growth and protein synthesis. Moreover, increased synthesis of ribosomes (the protein synthetic machinery) is associated with malignancy suggesting that it may play a causal role in cancer formation. In support of this, specific inhibitors of both ribosome biogenesis and function are extremely effective in inhibiting the growth of some tumours. This study will examine the mechanisms of deregulation of ribosome biogenesis and function duri ....A major feature of tumour progression is accelerated cell growth and protein synthesis. Moreover, increased synthesis of ribosomes (the protein synthetic machinery) is associated with malignancy suggesting that it may play a causal role in cancer formation. In support of this, specific inhibitors of both ribosome biogenesis and function are extremely effective in inhibiting the growth of some tumours. This study will examine the mechanisms of deregulation of ribosome biogenesis and function during cancer formation and assess for the first time whether aberrant regulation of ribosome biogenesis and function directly contributes to the initiation and-or progression of cancer.Read moreRead less
Programmed cell death (PCD), also known as apoptosis, plays a fundamental role in cell and tissue homeostasis and its misregulation is implicated in many human diseases. Many hormones control PCD but their mechanisms of action remain poorly understood. As hormones, in particular the steroid hormones, are directly linked to the pathogenesis of many forms of cancer, including breast, prostate and ovarian cancer, some of the most common malignancies afflicting the society, it is important to study ....Programmed cell death (PCD), also known as apoptosis, plays a fundamental role in cell and tissue homeostasis and its misregulation is implicated in many human diseases. Many hormones control PCD but their mechanisms of action remain poorly understood. As hormones, in particular the steroid hormones, are directly linked to the pathogenesis of many forms of cancer, including breast, prostate and ovarian cancer, some of the most common malignancies afflicting the society, it is important to study the mechanism of hormonal control of apoptosis in order to identify components of the regulatory apparatus. Identification of precise factors that regulate PCD will not only provide basic understanding of hormone-controlled PCD, but any novel factors involved in the control of cellular levels of death activators or death inhibitors are potential targets for anticancer drug development. This proposal is based on our ongoing studies, which combine the powerful biochemical and cellular approaches with the in vivo studies in vinegar fly (Drosophila) to address complex issues that are often difficult to pursue by the direct use of mammalian systems. We believe that the results from this study will provide novel insights into the mechanisms of hormone-regulated control of PCD and how these control mechanisms are disrupted under pathological conditions.Read moreRead less
Identifying novel insecticides and their targets: probing Australian arachnid venoms. Insect pests destroy an estimated 2-3 billion dollars of crops in Australia. Insect pests also are responsible for the transmission of many new and re-emerging human, animal and plant diseases threatening health, wellbeing and prosperity. Current insecticides are severely limited by toxicity and/or insect resistance, and some are undergoing use cancellation overseas. Thus there is an urgent need to develop safe ....Identifying novel insecticides and their targets: probing Australian arachnid venoms. Insect pests destroy an estimated 2-3 billion dollars of crops in Australia. Insect pests also are responsible for the transmission of many new and re-emerging human, animal and plant diseases threatening health, wellbeing and prosperity. Current insecticides are severely limited by toxicity and/or insect resistance, and some are undergoing use cancellation overseas. Thus there is an urgent need to develop safer and more specific insecticides that are effective against disease vectors and agricultural pest insects, as well as to identify new insecticide targets. This research has a multi-million dollar potential benefit to agricultural, health and pest control sectorsRead moreRead less
In vivo assembly and virulence of poxvirus infectious crystals. Widespread insect viruses have evolved unique infectious forms called crystalline armours. This project will use innovative biophysical approaches to understand how these virus-containing crystals assemble and package viruses and contribute to virulence as a rational basis for improved bioinsecticides and novel microparticles for biotechnological applications.