Targeting The AGE-RAGE Axis In Diabetes Associated Atherosclerosis
Funder
National Health and Medical Research Council
Funding Amount
$542,859.00
Summary
Based on extensive preliminary data we porpose that the AGE intercation with RAGE plays an important role in diabetes associated atherosclerosis. We will perform studies using a soluble form of the receptor RAGE which will trap AGEs in the blood and tissues and thus prevent diabetes related blood vessel damage. Furthermore, we will investigate if RAGE receptor on inflammatory cells such as macrophages plays a pivotal role in blood vessel injury in diabetes.
Role Of Circulating Advanced Glycation End Products (AGEs) In Diabetic Nephropathy: Effect Of Benfotiamine Intervention
Funder
National Health and Medical Research Council
Funding Amount
$465,000.00
Summary
Advanced glycation products (AGEs) are compounds formed by the addition of sugars to amino acids (the building blocks of proteins). The addition of sugars to proteins induces biological changes that have been implicated in the development of diabetic complications, especially diabetic kidney disease. AGEs are a diverse group of compounds and to date the exact role that specific AGEs play in the causation of diabetic kidney disease is still unclear. However, new methods are now available that all ....Advanced glycation products (AGEs) are compounds formed by the addition of sugars to amino acids (the building blocks of proteins). The addition of sugars to proteins induces biological changes that have been implicated in the development of diabetic complications, especially diabetic kidney disease. AGEs are a diverse group of compounds and to date the exact role that specific AGEs play in the causation of diabetic kidney disease is still unclear. However, new methods are now available that allow the comprehensive quantification of individual AGE levels in blood. Our study involves the comparison of AGE blood levels, as a group or as specific AGEs with markers of diabetic kidney disease such as albumin (protein) excretion in the urine and the rate that the kidney filters the blood to form urine (glomerular filtration rate). Benfotiamine is a thiamine (vitamin B1) derivative that has been shown to decrease the formation of AGEs and to prevent kidney disease in diabetic animals. The present clinical study will assess whether benfotiamine has similar effects on AGEs and kidney disease in patients with type 2 diabetes. If successful, this study has the potential to provide a new treatment strategy for diabetic kidney disease in humans.Read moreRead less
Restricting Dietary Advanced Glycation End Product Intake As A Potential Therapeutic Tool In Diabetic Nephropathy.
Funder
National Health and Medical Research Council
Funding Amount
$483,351.00
Summary
Kidney disease is a serious complication of diabetes and may occur as a result of a biochemical process known as advanced glycation. These advanced glycation end products (AGEs) accumulate in the kidney causing disruption of function. Due to modern food processing techniques, the Australian diet has a high AGE content. Over-eating foods which are high in AGEs may worsen diabetic kidney disease. This proposal will test the effects of dietary AGE restriction and overfeeding on kidney function.
Circulating Low -molecular Weight AGEs In The Development And Progression Of Diabetic Complications
Funder
National Health and Medical Research Council
Funding Amount
$297,523.00
Summary
High levels of sugars seen in patients with diabetes leads to damage of many organs including the heart, the eyes and the kidneys. These high sugars cause damage through a number of mechanisms, one being the formation of advanced glycation end products or AGEs, formed by the irreversible reaction between proteins and glucose. This reaction leads to a change in the shape and function of AGE-modified molecules that progressively contributes to organ damage. AGEs also bind and activate specific rec ....High levels of sugars seen in patients with diabetes leads to damage of many organs including the heart, the eyes and the kidneys. These high sugars cause damage through a number of mechanisms, one being the formation of advanced glycation end products or AGEs, formed by the irreversible reaction between proteins and glucose. This reaction leads to a change in the shape and function of AGE-modified molecules that progressively contributes to organ damage. AGEs also bind and activate specific receptors that promote the damage and scarring of tissue. Where the glucose concentration is high, AGEs accumulate much more quickly. This is one reason why patients with good sugar control do better than those who are unable to control their blood sugars. The importance of this AGE pathway is illustrated by the fact that blocking the formation of AGEs is able to prevent kidney damage in animals with diabetes. In addition, exposure to AGEs can cause diabetes-like changes in the absence of high sugars. Our laboratory is a world leader in the study of the advanced glycation and methods blocking this process. The research proposed will investigate circulating levels of AGEs in experimental animals and patients with diabetes, and correlate them with the development and progression of complications of diabetesRead moreRead less
Dietary Intake Of Highly Processed Foods As A Contributor To Type 1 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$558,953.00
Summary
Modern food processing imparts desirable functional properties such as emulsification and longer shelf life. These biochemical modifications in our food may cause the body to turn on itself and destroy the cells which produce the sugar storage hormone insulin. This is important for survival and characterizes childhood onset diabetes and can also be seen in type 2 diabetes. This research will test some dietary and pharmaceutical interventions to slow the development of diabetes.
Modulating Pathogenic Signalling Towards The Prevention Of Diabetic Complications
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
Diabetes is associated with an increased risk of heart attacks and kidney failure. There remains an urgent need for new targets and therapies for preventing, arresting, treating and reversing these diabetic complications. My research directly focuses on identifying and validating these targets treatments, building on strong preliminary data and understanding of the molecular mechanisms set off by high sugar levels.
Screening For Abdominal Aortic Aneurysms: Long-term Outcome And Role Of Circulating Markers Of Glycation
Funder
National Health and Medical Research Council
Funding Amount
$140,497.00
Summary
The abdominal aorta may undergo dilatation resulting an aneurysm. Some aneurysms may rupture causing death. The risk of rupture increases once the diameter exceeds 5cm. The management is detection and surgery for large aneurysms. As most aneurysms are asymptomatic prior to rupture screening of men using ultrasound may save lives. The aims of this study are to assess the role of screening on mortality from aneurysms and to assess a new blood test which may help monitor aneurysms.