Cardiovascular Effects Of Enhanced Leptin Signalling
Funder
National Health and Medical Research Council
Funding Amount
$1,200,972.00
Summary
Leptin treatment causes weight loss, but leptin also increases blood pressure. We wish to determine if increasing leptin signalling, by modifying signal transduction pathways within leptin sensitive cells in the brain, can reduce weight without increasing blood pressure.
Age- And Energy-status Dependent-plasticity Of Glucose Sensing, Orexigenic NPY Neurons: The Glucose-ghrelin Balance
Funder
National Health and Medical Research Council
Funding Amount
$578,641.00
Summary
Our research aims to identify how specific brain cells detect changes in glucose levels and how ageing and diet affect their function. We identified a subset of nerve cells that detect changes in glucose and the “hunger” hormone ghrelin, their ability to do so adapting with age and nutritional status. This project will investigate the potential of these nerve cells as targets for therapeutic and diet- intervention strategies to target obesity, diabetes and promote healthy ageing
Brain Glucose-sensing: Age- And Energy-status-dependent Plasticity Of Function-specific Pro-opiomelanocortin (POMC) Glucose-sensing Neurons In The Arcuate Nucleus Of The Hypothalamus
Funder
National Health and Medical Research Council
Funding Amount
$495,071.00
Summary
Obesity and ageing predispose individuals to diabetes, the health and socio-economic implications of which posing significant challenges for Australia in the foreseeable future. Research outlined here aims to identify novel mechanisms enabling brain cells to detect changes in glucose and how ageing and diet affect the function of these nerves. We believe this research could provide novel therapeutic and early diet-based intervention strategies for diabetes and obesity.
Investigations Of Neural Pathways For Heat Loss And Heat Gain In Thermoregulation And Fever
Funder
National Health and Medical Research Council
Funding Amount
$349,486.00
Summary
This project aims to map the nerve pathways in the brain that participate in the regulation of body temperature in the laboratory rat. The area of the brain that will be studied is the hypothalamic region. We will determine how this region influences the constriction of blood vessels in the skin to reduce heat loss when an animal is exposed to a cool environment, or when it exhibits a fever in response to a bacterial infection. As well, we will compare the nervous pathway that controls the gener ....This project aims to map the nerve pathways in the brain that participate in the regulation of body temperature in the laboratory rat. The area of the brain that will be studied is the hypothalamic region. We will determine how this region influences the constriction of blood vessels in the skin to reduce heat loss when an animal is exposed to a cool environment, or when it exhibits a fever in response to a bacterial infection. As well, we will compare the nervous pathway that controls the generation of heat from fat tissue in response to cold or fever with those controlling blood flow to the skin. These nervous pathways may be critical for maintaining correct body temperature during general anaesthesia, infections or in the aged subjected to temperature extremes. Thus, they are of importance in the health and well-being of much of the population.Read moreRead less
Neural Basis Of The Thermal Instability That Leads To Menopausal Hot Flushes
Funder
National Health and Medical Research Council
Funding Amount
$330,535.00
Summary
Hot flushes and night sweats affect 80-90% of women during the menopause transition. In 20% of women these symptoms are severe. The mechanisms are not well understood, and non-hormonal treatments are urgently needed. We can investigate the basic brain mechanisms in an animal model, the sheep. The findings will elucidate the mechanisms that disrupt normal temperature regulation and thus lead the way to better therapies for this common, and often debilitating, condition. .