The impact of high fat diet on islet function: the benefits from unsaturated fatty acids
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Type
ThesisThesis type
Doctor of PhilosophyAuthor/s
Cheung, CharmaineAbstract
The prevalence of obesity and Type 2 Diabetes (T2D) is increasing worldwide. A Western diet is associated with the increased risks of obesity and T2D. Chronic consumption of a high saturated-fat diet (HSFD) in animals causes β-cell dysfunction due to lipotoxicity. However, lipotoxicity ...
See moreThe prevalence of obesity and Type 2 Diabetes (T2D) is increasing worldwide. A Western diet is associated with the increased risks of obesity and T2D. Chronic consumption of a high saturated-fat diet (HSFD) in animals causes β-cell dysfunction due to lipotoxicity. However, lipotoxicity in vivo in human islets is currently unproven. This thesis aimed to interrogate the impacts of chronic high polyunsaturated fat (PUFD), monounsaturated fat (MUFD), and high saturated fat (HSFD) diets and healthy chow in mice and their effects on mouse islet function. Then the effect of MUFD and HSFD on human islet function were assessed in vivo using an islet transplant model. To test human islet, we induced diabetes in immunocompromised Recombination Activating Gene 1 (RAG1)-null mice by streptozotocin or alloxan. Human islets were then transplanted under the mouse kidney capsule. Mice went on to diet for 16 weeks. Human islet transplanted mice then had their islet graft removed to confirm glucose regulation was solely driven by human islets. Normal mice and human-islet transplanted mice gained excess weight on HSFD but not MUFD. PUFD had intermediate effects in mice and was not studied in human islets. In mice, there was significantly impaired glucose tolerance on HSFD, with intermediate effects of MUFD and PUFD. MUFD caused no deterioration in glucose tolerance in human-islet mice compared to chow-fed mice. Overall, there were significant differences between donor islets (p<0.0001), diets (p<0.001) and as well as a significant diet-donor-preparation interaction (p=0.001). However, every human donor showed deterioration in GTT with HSFD. This work has important implications for diet in human diabetes and in people after pancreas- or islet-transplantation.
See less
See moreThe prevalence of obesity and Type 2 Diabetes (T2D) is increasing worldwide. A Western diet is associated with the increased risks of obesity and T2D. Chronic consumption of a high saturated-fat diet (HSFD) in animals causes β-cell dysfunction due to lipotoxicity. However, lipotoxicity in vivo in human islets is currently unproven. This thesis aimed to interrogate the impacts of chronic high polyunsaturated fat (PUFD), monounsaturated fat (MUFD), and high saturated fat (HSFD) diets and healthy chow in mice and their effects on mouse islet function. Then the effect of MUFD and HSFD on human islet function were assessed in vivo using an islet transplant model. To test human islet, we induced diabetes in immunocompromised Recombination Activating Gene 1 (RAG1)-null mice by streptozotocin or alloxan. Human islets were then transplanted under the mouse kidney capsule. Mice went on to diet for 16 weeks. Human islet transplanted mice then had their islet graft removed to confirm glucose regulation was solely driven by human islets. Normal mice and human-islet transplanted mice gained excess weight on HSFD but not MUFD. PUFD had intermediate effects in mice and was not studied in human islets. In mice, there was significantly impaired glucose tolerance on HSFD, with intermediate effects of MUFD and PUFD. MUFD caused no deterioration in glucose tolerance in human-islet mice compared to chow-fed mice. Overall, there were significant differences between donor islets (p<0.0001), diets (p<0.001) and as well as a significant diet-donor-preparation interaction (p=0.001). However, every human donor showed deterioration in GTT with HSFD. This work has important implications for diet in human diabetes and in people after pancreas- or islet-transplantation.
See less
Date
2023Rights statement
The author retains copyright of this thesis. It may only be used for the purposes of research and study. It must not be used for any other purposes and may not be transmitted or shared with others without prior permission.Faculty/School
Faculty of Medicine and Health, Westmead Clinical SchoolAwarding institution
The University of SydneyShare