Searchable abstracts of presentations at key conferences in endocrinology

ea0077p60 | Metabolism, Obesity and Diabetes | SFEBES2021

Mimicking chronic hyperglycaemic conditions in primary human endothelial cell cultures using pathophysiological concentrations of glucose in prediabetes and type 2 diabetes

Luk Cheukyau , Haywood Natalie J , Kearney Mark T

Introduction: In the UK alone, diabetes affects nearly 4 million people and an additional 13.6 million people are estimated to be at high risk of developing type 2 diabetes (T2DM). Diabetes is associated with vascular complications which path the development of cardiovascular diseases such as strokes and heart attacks. Previous studies have shown various pathways in which hyperglycaemia leads to endothelial dysfunction and insulin resistance. However, current reports of <e...

ea0086p210 | Metabolism, Obesity and Diabetes | SFEBES2022

Elucidating endothelial-derived molecules with potential anti-obesity properties via crosstalk with enterocytes and gut microbiota

Luk Cheukyau , Haywood Natalie J , Cubbon Richard , Kearney Mark T

Introduction: Overweight and obesity is a worldwide chronic disease affecting 2 billion adults and millions of children. In diet-induced obesity (DIO), current treatments are not always effective or suitable for all patients due to the complexity of obesity and its associated health complications. Recently, the potential of developing weight loss therapy by targeting the gut microbiota has been raised. Previously, we have shown that mice overexpressing insulin-like growth fact...

ea0104p75 | Diabetes & Metabolism | SFEIES24

An adipose organoid model for investigating adipose health and function

Luk Cheukyau , Makava Natallia , Skromna Anna , Cubbon Richard , Kearney Mark , Haywood Natalie

Background: In obesity the relationship between white adipose tissue expansion and neovascularisation becomes uncoupled leading to inadequate perfusion of adipose tissue. Under these circumstances the secretory profile of adipocytes becomes metabolically unfavourable and pro-atherosclerotic. Therefore, targeting white adipose tissue may provide a potential therapeutic strategy to combat the negative metabolic and cardiovascular consequences of obesity. Here, we validated a mur...