Download Background Insulin resistance, eg. reduced possibility for body cells

Background Insulin resistance, eg. reduced possibility for body cells to react on insulin-­‐signaling by enhancing glucose uptake from blood, is a key event in Diabetes type II, leading to high blood-­‐glucose-­‐levels. Hypothesis A novel co-­‐factor A is suspected to change the transcription of the insulin-­‐receptor gene (B) leading to altered conformity of the insulin-­‐receptor (C), promoting binding of substance D instead of insulin. In this way substance D will obstruct insulin and thereby block glucose up-­‐take. Methods We aim to compare glucose tolerance, meaning how well a mouse can handle sugar-­‐uptake, in diabetic knock-­‐out mice lacking co-­‐factor A, diabetic mice with intact co-­‐factor A and normal mice. Results When analyzing our diabetic mice lacking co-­‐factor A we found a much higher glucose-­‐tolerance compared to diabetic mice with intact co-­‐factor A, however not as high as in normal mice. This indicates a decrease in insulin resistance thereby supporting our hypothesis. Conclusions We conclude that co-­‐factor A has an important, although not sole, function in type II diabetes regulating blood-­‐glucose levels by increasing insulin resistance. Importance With the findings in this study we can now take the next step to investigate food-­‐content of co-­‐factor A, which might lead to better dietary recommendations. We also find it possible to develop a synthetic anti-­‐co-­‐factor A drug to be tested in a diabetic animal setting.