Type 2 diabetes causes significant health problems. The fundamental reasons underlying this disease are not fully known and will require molecular analysis of proteins critical to blood glucose control. This work aims to define a novel pathway that responds to circulating nutrients. The research will enhance our understanding of the links between diet and metabolic disease, with potential to reveal much needed therapeutic targets and/or dietary interventions for the treatment of Type 2 diabetes.
The Mechanism Of Intestinal Haem Iron Absorption And Characterization Of A Novel Haem-binding Protein
Funder
National Health and Medical Research Council
Funding Amount
$537,773.00
Summary
Iron is essential for normal health as many important proteins in the body require iron to function properly (e.g. haemoglobin). However, too much iron can be toxic, so the body must keep its iron content within defined limits. The amount of iron in the body is determined at the point of absorption from the diet in the small intestine. If too little iron is absorbed, then anaemia can result. If too much iron is absorbed, as is the case in the common disease haemochromatosis (with approximately 1 ....Iron is essential for normal health as many important proteins in the body require iron to function properly (e.g. haemoglobin). However, too much iron can be toxic, so the body must keep its iron content within defined limits. The amount of iron in the body is determined at the point of absorption from the diet in the small intestine. If too little iron is absorbed, then anaemia can result. If too much iron is absorbed, as is the case in the common disease haemochromatosis (with approximately 1 in 200 Australians at risk) then the body becomes iron loaded and various organs, particularly the liver, can become damaged. An understanding of how iron is absorbed will place us in a much better position to treat diseases such as this. Iron is present in the diet in two forms - inorganic iron and haem iron. Inorganic iron is the main form of iron in foods of plant origin while most haem iron comes from meat. In a typical diet 80-90% of the iron is inorganic iron and only 10-20% is haem. Despite this, 30-50% of the iron taken into the body comes from haem, so haem iron absorption is particularly efficient. While we have learned a great deal about the mechanims by which inorganic iron is absorbed in recent years, we know very little about the absorption of haem iron, so that is the focus of this project. We will study the pathway by which haem enters the body, how this process is regulated, and the characteristics of haem binding to the cells lining the small intestine. These cells are responsible for the uptake of all nutrients from the diet. In particular, we will examine the biology of a recently identified protein known as HCP1. Preliminary evidence suggests that HCP1 could be the main protein enabling haem to be taken up by intestinal cells. These studies will enhance our knowledge of an important nutritional pathway and improve our capacity to treat diseases such as haemochromatosis where iron absorption is defective.Read moreRead less
Interactions Between Protein Leverage, Variety, And Dietary Carbohydrate And Fat Content In The Control Of Energy Intake In Humans
Funder
National Health and Medical Research Council
Funding Amount
$580,950.00
Summary
Most attempts to understand human vulnerability to obesity have focussed on fat and carbohydrate, yet recent studies have shown a powerful role for protein: we eat more calories when dietary protein concentration is low. But how does protein interact with other aspects of the diet, notably the prodigious variety of foods available in modern environments and the balance of fat to carbohydrate? We will use controlled trials to investigate how these factors contribute to excess energy intake.
I am a physiologist focused on the role of dietary protein on excess weight gain. In the proposed study, I will examine energy balance in lean and overweight individuals in response to a 4-day covertly manipulated 10, 15 or 25% protein diet. We will measure effects on hunger using subjective ratings and hormone levels and the affects on energy expenditure including resting metabolic rate, the energy it takes to digest food and physical activity levels.
Central Neural Circuits Subserving Nutrient–activated Thermogenesis - The Basis Of Post Prandial Energy Expenditure
Funder
National Health and Medical Research Council
Funding Amount
$766,207.00
Summary
Studies of “energy burning” brown fat, including its importance in the determination of obesity in humans and the potential to increase its capacity by turning white fat into brown-like fat are currently foremost in obesity research. Here we study the detail of brain pathways that dictate brown fat activity after a meal resulting in the burning of ingested calories and reduction of body weight. The results will give us a better idea of how we can harness brown fat to combat obesity.
Investigating Dietary Vitamin D In The Australian Population
Funder
National Health and Medical Research Council
Funding Amount
$386,476.00
Summary
Vitamin D deficiency is a significant public health issue in Australia: almost one in four adults, and one in five adolescents, are vitamin D deficient. Although vitamin D can be obtained from sun exposure and diet, we know very little about dietary vitamin D in Australia. This project will determine how much vitamin D is in Australian foods, how much people get from their usual diets, and whether increasing vitamin D in foods would be a safe and effective way to reduce vitamin D deficiency.
Targeted Nutrition To Improve Maternal And Child Health Outcomes
Funder
National Health and Medical Research Council
Funding Amount
$2,500,000.00
Summary
Nutrition is vitally important to support the rapid growth and development occurring from conception to a child’s second birthday – the first 1000 days. Failure to meet nutritional needs during this critical period can have profound consequences for lifelong health. Through our CRE in Targeted Nutrition to Improve Maternal and Child Health Outcomes, we will provide nutritional interventions which optimise a mother’s health outcomes and ensure her children achieve their full potential.
Providing Real-time Feedback On Diet Quality In Remote Indigenous Communities To Support Policy Makers And Other Key Stakeholders In Making Decisions To Improve Food Supply And Access In Remote Indigenous Communities.
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
Community leaders and other decision makers have indicated that real-time feedback on diet quality in their communities is fundamental to support them in improving the food supply. This project will provide critical evidence to support this. I will consult with local stakeholders to develop visual reports that have evidence-based information on diet quality and strategies to improve the food supply, and will test whether the provision of this information is effective in improving diet quality.
Ageing And Latelife Health: Calories, Macronutrients Or Branched Chain Amino Acids?
Funder
National Health and Medical Research Council
Funding Amount
$746,459.00
Summary
The prevailing dogma of ageing research has been that a substantive reduction in caloric intake maintained over a lifetime will delay ageing and age-related pathologies (caloric restriction - CR). Yet CR does not differentiate between the effects of reduced intake of calories versus specific macronutrients, nor can it assess the impact of balance of macronutrients. This application seeks to disentangle the role of CR and macronutrients on their effects on healthspan and lifespan in mice.