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- Koffert, J. P., et al.
(författare)
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Metformin treatment significantly enhances intestinal glucose uptake in patients with type 2 diabetes: Results from a randomized clinical trial
- 2017
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Ingår i: Diabetes Research and Clinical Practice. - : Elsevier BV. - 0168-8227 .- 1872-8227. ; 131, s. 208-216
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Tidskriftsartikel (refereegranskat)abstract
- Aims Metformin therapy is associated with diffuse intestinal 18F-fluoro-deoxyglucose (FDG) accumulation in clinical diagnostics using routine FDG-PET imaging. We aimed to study whether metformin induced glucose uptake in intestine is associated with the improved glycaemic control in patients with type 2 diabetes. Therefore, we compared the effects of metformin and rosiglitazone on intestinal glucose metabolism in patients with type 2 diabetes in a randomized placebo controlled clinical trial, and further, to understand the underlying mechanism, evaluated the effect of metformin in rats. Methods Forty-one patients with newly diagnosed type 2 diabetes were randomized to metformin (1g, b.i.d), rosiglitazone (4mg, b.i.d), or placebo in a 26-week double-blind trial. Tissue specific intestinal glucose uptake was measured before and after the treatment period using FDG-PET during euglycemic hyperinsulinemia. In addition, rats were treated with metformin or vehicle for 12weeks, and intestinal FDG uptake was measured in vivo and with autoradiography. Results Glucose uptake increased 2-fold in the small intestine and 3-fold in the colon for the metformin group and associated with improved glycemic control. Rosiglitazone increased only slightly intestinal glucose uptake. In rodents, metformin treatment enhanced intestinal FDG retention (P=0.002), which was localized in the mucosal enterocytes of the small intestine. Conclusions Metformin treatment significantly enhances intestinal glucose uptake from the circulation of patients with type 2 diabetes. This intestine-specific effect is associated with improved glycemic control and localized to mucosal layer. These human findings demonstrate directs effect of metformin on intestinal metabolism and elucidate the actions of metformin. Clinical trial number NCT02526615 © 2017 The Authors
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| 2. |
- Tsuji, M., et al.
(författare)
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Foxc2 influences alveolar epithelial cell differentiation during lung development
- 2017
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Ingår i: Development Growth & Differentiation. - : Wiley. - 0012-1592. ; 59:6, s. 501-514
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Tidskriftsartikel (refereegranskat)abstract
- FOXC2, a forkhead transcriptional factor, is a candidate gene for congenital heart diseases and lymphedema-distichiasis syndrome and yellow nail syndrome; however, there are no reports on Foxc2 and the development of the lung. We have identified lung abnormalities in Foxc2-knockout embryos during investigation of cardiac development. The aim of this study was to clarify the morphological characteristics during lung development using ICR-Foxc2 knockout lungs. Mutant fetuses at embryonic days 10.5-18.5 were obtained from mating of Foxc2(+/-) mice and then analyzed. Notably, Foxc2-knockout lungs appeared parenchymatous and much smaller than those of the wild-type littermates. In the Foxc2 knockout lungs, the capillary beds remained distant from the alveolar epithelium until the late stages, the number of type2 alveolar cells per alveolar progenitor cell was lower and the type1 alveolar cells were thicker in Foxc2 knockout mice. In contrast, Foxc2 expression was only detected in the mesenchyme of the lung buds at E10.5, and it disappeared at E11.5 in Foxc2-LacZ knockin mice. Furthermore, the expression of Lef1 was significantly inhibited in E11.5 lungs. All of these results suggest that the abnormalities in Foxc2 knockout mice may involve maldifferentiation of alveolar epithelial cells and capillary vessel endothelial-alveolar epithelial approach as well as lymph vessel malformation. This is the first report about relationship between Foxc2 and lung development. This animal model might provide an important clue for elucidating the mechanism of lung development and the cause of respiratory diseases.
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