Discovery Early Career Researcher Award - Grant ID: DE190101244
Funder
Australian Research Council
Funding Amount
$342,411.00
Summary
Unravelling the relationship between food and the brain. This project aims to investigate how highly palatable foods that are high in fat and sugar, interact with the brain to cause their overconsumption. Highly palatable foods cause plasticity in brain reward circuitry in a manner similar to drugs of abuse. Identifying how these "junk" foods interact with reward areas of the brain will explore the neural mechanisms underlying the hedonic nature of appetite. This project will not only inform our ....Unravelling the relationship between food and the brain. This project aims to investigate how highly palatable foods that are high in fat and sugar, interact with the brain to cause their overconsumption. Highly palatable foods cause plasticity in brain reward circuitry in a manner similar to drugs of abuse. Identifying how these "junk" foods interact with reward areas of the brain will explore the neural mechanisms underlying the hedonic nature of appetite. This project will not only inform our understanding of how exposure to these foods can contribute to overeating and obesity, a huge and growing problem in Australia, but will also provide evidence to inform policy options relevant to advertising and marketing of these foods.Read moreRead less
How appetite-suppressing brain cells maintain normal function and prevent the development of obesity. The brain plays a critical role in body weight gain by balancing appetite-inducing and appetite-suppressing signals. An imbalance in this process causes obesity and promotes diabetes. The aim of this research is to identify how appetite-suppressing brain cells maintain normal function and prevent the development of obesity.
Muscling in on the brain. This project investigates an enzyme that 'matures' neurotransmitters in the brain that regulate food intake, energy expenditure and blood pressure by the brain; these neurotransmitters arise from the same precursor molecule. This project will show the physiological relevance of this enzyme in obesity.
A novel role for microglia in neural maturation. This project aims to determine the role that microglia have in maturation of cells of the retina called photoreceptors. High resolution microscopy combined with molecular and functional analysis will show the extent and type of contact between photoreceptors and microglia, the molecules released by microglia and the mechanism(s) by which microglia modify photoreceptors after birth. The knowledge gained in this project will provide critical informa ....A novel role for microglia in neural maturation. This project aims to determine the role that microglia have in maturation of cells of the retina called photoreceptors. High resolution microscopy combined with molecular and functional analysis will show the extent and type of contact between photoreceptors and microglia, the molecules released by microglia and the mechanism(s) by which microglia modify photoreceptors after birth. The knowledge gained in this project will provide critical information about how we see, and will have sustained impact on our understanding of the role of immune cells in the nervous system.Read moreRead less