The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
The Role Of Hyaluronic Acid In The Biology Of Haemopoietic Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$392,090.00
Summary
Marrow and microenvironmental cell (MC) interactions play a central role in bone marrow (BM) cell localisation and regulation. Specifically, the regulation of primitive blood cells (HSC) is affected by their locality and their expression of a wide repertoire of cell adhesion molecules (CAM). This project is based upon the unique observation made in the applicants laboratory demonstrating that both murine HSC and candidate human HSC synthesize the carbohydrate CAM hyaluronic acid (HA). Moreover w ....Marrow and microenvironmental cell (MC) interactions play a central role in bone marrow (BM) cell localisation and regulation. Specifically, the regulation of primitive blood cells (HSC) is affected by their locality and their expression of a wide repertoire of cell adhesion molecules (CAM). This project is based upon the unique observation made in the applicants laboratory demonstrating that both murine HSC and candidate human HSC synthesize the carbohydrate CAM hyaluronic acid (HA). Moreover we have now accumulated data suggesting a key role for HA in determining the spatial distribution of HSC within the BM following transplantation and in regulating their development into mature blood cells. Encapsulating the concept of highly specific, local interactions regulating blood cells is the 'niche' hypothesis in which MC form a specific 'niche'. The current inability to identify HSCs in situ makes it impossible to analyse either their distribution or molecules that regulate this process. Circumstantial evidence suggests the presence of HSC niches in close association with the bone. Using a novel approach based on BM transplantation to track cells lodging in the BM, we were the first to report that the lodgment of a transplant of HSC is not a random process, but results in cells of donor origin being located at the bone-marrow interface. The presence of HA on HSC was critical for this pattern of lodgment. In addition, we have also accumulated evidence suggesting that HA is important in the maintenance of HSC in their primitive state. This proposal aims to confirm the critical role of HA in HSC biology.Read moreRead less
The Role Of Hyaluronic Acid, CD44 And Osteopontin In Haemopoietic Stem Cell Biology
Funder
National Health and Medical Research Council
Funding Amount
$472,062.00
Summary
Marrow and microenvironmental cell (MC) interactions play a central role in bone marrow (BM) cell localisation and regulation. Specifically, the regulation of primitive blood cells (HSC) is affected by their locality and their expression of a wide repertoire of cell adhesion molecules. This project is based upon the unique observations made in the applicants laboratory demonstrating that the three molecules hyaluronic acid (HA), CD44 and osteopontin play key roles in the localisation of HSC with ....Marrow and microenvironmental cell (MC) interactions play a central role in bone marrow (BM) cell localisation and regulation. Specifically, the regulation of primitive blood cells (HSC) is affected by their locality and their expression of a wide repertoire of cell adhesion molecules. This project is based upon the unique observations made in the applicants laboratory demonstrating that the three molecules hyaluronic acid (HA), CD44 and osteopontin play key roles in the localisation of HSC within the BM following transplantation and in regulating their development into mature blood cells. Encapsulating the concept of highly specific, local interactions regulating blood cells is the 'niche' hypothesis in which MC form a specific 'niche'. The current inability to identify HSC in situ makes it impossible to analyse either their distribution or molecules that regulate this process. Circumstantial evidence suggests the presence of HSC 'niches' in close association with the bone. Using a novel approach based on BM transplantation to track cells lodging in the BM, we were the first to report that the lodgement of a transplanted HSC is not a random process, but results in cells of donor origin migrating to the bone-marrow interface. The presence of HA and CD44 on the HSC and CD44 and ostepontin in the marrow microenvironment are critical for this pattern of lodgement. In addition, we now have evidence that HA and osteopontin are important in the maintenance of HSC in their primitive state. This proposal aims to confirm the critical roles and interactions of these three molecules in HSC biology.Read moreRead less
Identifying The Mechanisms By Which Ascorbate Stimulates Cellular Iron Uptake From Transferrin.
Funder
National Health and Medical Research Council
Funding Amount
$302,123.00
Summary
Vitamin C (ascorbate)-deficiency leads to anaemia and other symptoms of scurvy. Iron supplementation cannot alone correct this anaemia, with ascorbate being crucial. Almost all iron in plasma is bound to transferrin, and I have recent data showing that ascorbate stimulates transferrin-iron uptake. This research will identify how this stimulation occurs. This work has important biomedical implications for understanding iron uptake and anaemia, which affects 500 million people globally.
Sorting Out The Synapse: The Role Of Intracellular Trafficking In NMDA Receptor Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$631,966.00
Summary
When the normal levels of cell surface proteins in neurons are reduced this can lead to a variety of debilitating neurodegenerative and neuronal diseases. These levels are maintained by organelles inside the neuron called endosomes. In this project we will examine how cell surface receptors required for synapse formation are transported through endosomes by a protein machine called retromer, which is important in both Alzheimer’s and Parkinson’s disease.
Regulation And Activity Of Fatty Acid Delta-6 Desaturase (D6D)
Funder
National Health and Medical Research Council
Funding Amount
$527,683.00
Summary
Fish and fish oils contain fats known as omega-3 fats. These have health benefits in adult conditions such as rheumatoid arthritis and heart disease, and they are necessary for proper brain and eye development in infants. However, much of the population does not like to eat fish and also, world fish stocks are under stress. Thus, a sustainable alternative source of omega-3 fats needs to be explored. Some vegetable oils such as canola, echium, and flaxseed oils have omega-3 fats. However, these a ....Fish and fish oils contain fats known as omega-3 fats. These have health benefits in adult conditions such as rheumatoid arthritis and heart disease, and they are necessary for proper brain and eye development in infants. However, much of the population does not like to eat fish and also, world fish stocks are under stress. Thus, a sustainable alternative source of omega-3 fats needs to be explored. Some vegetable oils such as canola, echium, and flaxseed oils have omega-3 fats. However, these are not the same as the omega-3s in fish oil. In general, vegetable omega-3s are known as short-chain omega-3s whereas those in fish are long-chain. When the vegetable oil omega-3s are consumed in the diet, the body must convert them to the fish-type, or long-chain, omega-3s in order to gain the health benefits. Currently, human metabolism is poor at doing this conversion. Our studies suggest that the amounts and blends of fats in most diets are well below optimal for conversion to long-chain omega-3s in the body. In particular, our studies show that there may be no point in simply adding more vegetable omega-3 fats to the diet. This project will examine the enzymes that convert the short-chain to the long-chain omega-3 fats. In particular, it will examine how the dietary fats interact with each other in detrimental ways to suppress activity of the conversion enzymes necessary for long-chain omega-3 formation. Evidence for the health benefits of fish-based omega-3 fats is very strong and it is an approach to health that most people can undertake on their own. Our lack of knowledge of the best way to use plant-based omega-3 fats is a large impediment for a more sustainable and broader based use of omega-3 fats. The results from this study will begin to fill in this knowledge gap. The results will be useful across a range of activities that are determinants of the kinds of fat that we eat. These include oil seed breeding, food manufacture, and dietetics.Read moreRead less
Deciphering The Molecular Steps Leading To The Potentiation Of Neuronal Exocytosis By Arachidonic Acid
Funder
National Health and Medical Research Council
Funding Amount
$273,000.00
Summary
Release of hormones and neurotransmitters relies on a process called exocytosis which involves SNARE proteins: syntaxin1A and SNAP-25 on the target plasma membrane and VAMP on the vesicular membrane. Availability of the t-SNARE on the plasma membrane is believed to play a major role in controlling the amount of exocytosis. Syntaxin1A bound to Munc18 constitute an 'unproductive-reserve' pool of closed Syntaxin that cannot interact with SNAP-25. Intracellular messengers capable of releasing Syntax ....Release of hormones and neurotransmitters relies on a process called exocytosis which involves SNARE proteins: syntaxin1A and SNAP-25 on the target plasma membrane and VAMP on the vesicular membrane. Availability of the t-SNARE on the plasma membrane is believed to play a major role in controlling the amount of exocytosis. Syntaxin1A bound to Munc18 constitute an 'unproductive-reserve' pool of closed Syntaxin that cannot interact with SNAP-25. Intracellular messengers capable of releasing Syntaxin1A from Munc18 thereby making it available to interact with SNAP-25, are foreseen to play a major role in potentiating exocytosis - a process with ramification for memory and learning. We have identified arachidonic acid, a lipidic messenger which fullfil this role. For the first time we are in a position to manipulate at the molecular level different pools of SNARE proteins with direct implications for our understanding of the mechanism of secretion. Very few models are currently available to understand how learning and memory occur in the brain. Our research points to a new direction: the amount of 'active' and 'unproductive-reserve' pools of SNARE proteins present on the plasma membrane of neurosecretory cells are in dynamic equilibrium and arachidonic acid, a second messenger capable of trans-synaptic action, can modify this equilibrium resulting in an increase of the amount of 'active' SNARE thereby potentiating the amount of transmitter-hormone released by exocytosis. Importantly, this research lays the basis for a dynamic view of the secretory mechanism with important implications for treatment of diseases such as diabetes and neurodegenerative diseases. Our hope is that by understanding at the molecular level how secretory cells regulate the amount of their secretion, we will be in a position to modify these parameters in order to counteract illnesses of the nervous system.Read moreRead less
Fatty Acid Biosynthesis In The Malaria Chloroplast As A Drug Target
Funder
National Health and Medical Research Council
Funding Amount
$131,035.00
Summary
Malarial parasites contain a chloroplast similar to that of plants. We recently found genetic evidence suggesting the malaria chloroplast makes fats in the same way as plant chloroplasts. Additionally, we have found that drugs and herbicides that block plant chloroplast fat production stop growth of malaria cultures. Parasitologists had assumed that malaria was unable to make fats and would scavenge them from its human host so we have probably discovered a new metabolic pathway in these parasite ....Malarial parasites contain a chloroplast similar to that of plants. We recently found genetic evidence suggesting the malaria chloroplast makes fats in the same way as plant chloroplasts. Additionally, we have found that drugs and herbicides that block plant chloroplast fat production stop growth of malaria cultures. Parasitologists had assumed that malaria was unable to make fats and would scavenge them from its human host so we have probably discovered a new metabolic pathway in these parasites. We now propose to prove that the drugs work by blocking essential, chloroplast-based fat production in parasites. This could lead to novel treatment of malaria and related parasites.Read moreRead less