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Diabetes is a chronic metabolic disease affecting 415 million people worldwide, 90% of cases are type 2 which is frequently associated with obesity and a sedentary lifestyle. In healthy individuals, insulin stimulates increased cell surface expression of a glucose transporter (GLUT4) in muscle and fat tissue. This prevents blood sugar levels becoming dangerously high by taking sugar into the muscle and fat cells. Loss of this response ('insulin resistance') frequently occurs before the development of type 2 diabetes. Understanding the cell biology of insulin resistance is necessary to develop more effective treatments for this condition and prevent further cases of type 2 diabetes. Previous work showed that this movement of GLUT4 is dependent on a small protein called Rab3 which is downregulated in insulin resistance. Rab3 protein levels are also sensitive to inflammation, a state that is exacerbated by obesity.
In order to examine whether Rab3 is an early biomarker of insulin resistance, we aim to measure the levels of this protein and its interactors in fat and muscle samples from insulin resistant individuals. It has been shown that insulin sensitivity can be improved with an intervention as short as three weeks when net energy intake is sufficiently reduced. Therefore, by taking the same measurements before and after this three week intervention we can observe any improvements in Rab3 expression and insulin sensitivity at a cellular level.
There is also evidence for an effect of the gut microbiome on insulin sensitivity so we will measure any changes that take place in the gut microbiome following this intervention, which can be determined from faecal samples taken before and after the three weeks.
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Diabetes is a chronic metabolic disease affecting 415 million people worldwide and 3.5 million people in the UK, with ninety percent suffering from type 2 diabetes. Type 2 diabetes is characterised by the inability of muscle and fat tissues to adequately respond to physiological levels of insulin (peripheral tissue insulin resistance), and to restore the normal levels of sugars in the bloodstream. Insulin resistance may occur prior to the development of type 2 diabetes and has been shown to be strongly linked to lifestyle and to obesity, although the underlying mechanisms are incompletely resolved. A defining characteristic of insulin resistance is abnormal glucose transport as a result of decreased cell surface expression of the glucose receptor GLUT4. In healthy adipose and skeletal muscle this receptor is trafficked to the cell surface in response to an insulin stimulus. We have shown that this translocation to the cell membrane requires the protein Rab3, and expression levels of this protein are reduced in cell models of insulin resistance.
We hypothesise that this downregulation of Rab3 is associated with the development of insulin resistance and its activity would increase following the restoration of insulin sensitivity. The primary aim of this study is to examine the effect on Rab3 levels and GLUT4 trafficking of a diet and exercise intervention that has been previously shown to increase insulin sensitivity. Additionally, the gut microbiome will be studied before and after the intervention to determine any relationship to insulin sensitivity. Recent evidence suggests the microbiome has a significant role in the development of insulin resistance through a number of potential mechanisms. Infusion of microbiota from lean donors has been shown to result in improved insulin sensitivity in male recipients with metabolic syndrome, with concomitant increases in the prevalence of butyrate-producing intestinal microbiota. Exercise is associated with greater microbial diversity, including increases in butyrate-producing microbes. No study to date has monitored insulin sensitivity and microbiota composition before and after an exercise and diet intervention, and so this will lead to a better understanding of the mechanisms that lead to insulin resistance and subsequently type 2 diabetes.
The study participants will include males and females aged between 40-65 years who fit the criteria for inclusion. After monitoring of normal daily activities for 7 days, volunteers will reduce their calorie intake by 5000 kcal/week and take part in 5 weekly exercise sessions for 3 weeks. Participants will attend one session of laboratory testing before and one after this period which will take place at the University of Bath. This intervention should be sufficient to improve insulin sensitivity and allow us to study the cellular changes that will have taken place during this time.
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30 participants in 2 patient groups
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Data sourced from clinicaltrials.gov
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