Transcriptome Landscape Of Brown/beige Adipogenesis In Humans
Funder
National Health and Medical Research Council
Funding Amount
$393,369.00
Summary
There are three kinds of fat in the body: white, brown and beige. While excess white fat results in obesity, brown fat is associated with leanness and lowers blood glucose levels. Recent animal experiments show that under certain conditions, white fat can be transformed into beige fat, leading to benefits such as weight loss. The current project grant involves examination of human fat cells grown in the laboratory and investigation on the genetics of brown and beige fat.
Transgenerational Effects Of Male Obesity - Mechanisms And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$829,143.00
Summary
Childhood obesity is associated with obesity in either parent, and obese children tend to become obese adults, forming an intergenerational cycle that promotes obesity. We have identified paternal obesity as an important novel target for intervention to stop the progression of the obesity epidemic. This project investigates supplementation of obese fathers with folate to prevent the adverse impact of paternal obesity on subsequent generations.
Chemerin, A Novel Therapeutic Target For Modulation Of Adipose Tissue Mass
Funder
National Health and Medical Research Council
Funding Amount
$535,621.00
Summary
Obesity is a significant public health issue due to its increasing prevalence and association with other diseases including cardiovascular disease. Efforts to pharmacologically prevent and treat obesity are impaired by an incomplete understanding of the genes and metabolic processes involved. This project will use cell and animal models to examine the processes that occur during the expansion of fat tissue which will broaden our understanding of obesity and assist in identifying new therapies.
Deciphering The Metabolic And Endocrine Profile Of Healthy Adipocytes
Funder
National Health and Medical Research Council
Funding Amount
$563,194.00
Summary
Obesity is associated with the development of metabolic diseases, however, it is becoming clear that it is where the excess fat is stored that is more important when predicting the health risks associated with obesity. This project aims to identify whether adipocyte progenitor cells, which eventually become fat cells, are ‘preprogrammed’ and whether differences in these cells explain the generation of either healthy or unhealthy fat in different locations of the body.
Action Of PKC Epsilon In Adipose Tissue Regulates Hepatic Glucose Production
Funder
National Health and Medical Research Council
Funding Amount
$906,859.00
Summary
Our previous studies implicated the enzyme protein kinase C epsilon (PKCe) in the development of fat-induced insulin resistance, a key aspect of Type 2 Diabetes. Contrary to expectations we have now shown that animals lacking PKCe only in fat are protected from whole body insulin resistance when fed a high-fat diet. This project will investigate the mechanisms through which PKCe in fat affects insulin action at other tissues, especially liver, to disrupt normal control of blood sugar 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.
How Intra-abdominal Transplantation Of Subcutaneous Adipose Tissue Prevents High-fat Diet-induced Insulin Resistance And Obesity
Funder
National Health and Medical Research Council
Funding Amount
$358,465.00
Summary
In obese humans, storing excess fat within the abdomen is associated with the development of adult-onset diabetes and cardiovascular disease. However, the mechanisms linking intra-abdominal fat accumulation with these diseases are not well understood. We have studied intra-abdominal fat accumulation in mice using a transplant model, and we have found that transplanting subcutaneous fat intra-abdominally prevents diet-induced obesity and glucose intolerance. We aim to investigate the underlying m ....In obese humans, storing excess fat within the abdomen is associated with the development of adult-onset diabetes and cardiovascular disease. However, the mechanisms linking intra-abdominal fat accumulation with these diseases are not well understood. We have studied intra-abdominal fat accumulation in mice using a transplant model, and we have found that transplanting subcutaneous fat intra-abdominally prevents diet-induced obesity and glucose intolerance. We aim to investigate the underlying mechanisms.Read moreRead less
Investigating FABP4 As An Insulinotropic Adipokine
Funder
National Health and Medical Research Council
Funding Amount
$518,128.00
Summary
Obesity is an epidemic: 1 in 4 Australian adults and 1 billion people on earth are obese, with diabetes, heart disease and cancer closely linked. Our study will reveal how the novel hormone Fatty acid binding protein 4 is released from fat and enhances pancreatic insulin secretion in response to obesity. This will explain how pathological increases in insulin levels occur during obesity (a longstanding conundrum) and provide new therapeutic targets with which to treat the disease.
Central Neural Regulation Of Brown Fat Function – Glucose Sensing And CNS Pathways
Funder
National Health and Medical Research Council
Funding Amount
$761,942.00
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.
Identifying Brain Pathways Responsible For Stress Induced Obesity
Funder
National Health and Medical Research Council
Funding Amount
$895,663.00
Summary
Obesity-associated diseases are leading causes of death and are expected to increase as the obesity epidemic worsens. New evidence also shows that stress, an ever-increasing factor of life, can when combined with high caloric food lead and accelerate the development of obesity. The results from this study will help to identify new agents that may help reduce body weight and fat mass particular under conditions of increased stress.