OBJECTIVE: To elucidate whether duodenal-jejunal-bypass (DJB), which improves blood glucose control, changes activity of Na-D-glucose cotransporter SGLT1 in small intestine. BACKGROUND: DJB has been shown to improve oral glucose tolerance in normal rats and a genetic diabetic rat model. Because intestinal D-glucose absorption is mediated by SGLT1 localized in the brush border membrane of small intestinal enterocytes, it is unclear whether function of SGLT1 is altered by DJB and whether this contributes to the improvement of glycemic control. METHODS: A high-fat diet and low-dose streptozotocin administration were used to induce a type 2 diabetes in male Lewis rats. The diabetic animals underwent DJB or sham surgery. An oral glucose tolerance test (OGTT) was used to evaluate glucose control 3 weeks after surgery. SGLT1-mediated glucose transport was assessed using everted rings of different small intestinal segments. SGLT1 mRNA expression was determined by quantitative reverse transcription polymerase chain reaction (RT-PCR). RESULTS: DJB improved the OGTT significantly (P < 0.001) compared with sham-operated rats while body weight was not different among the surgical groups. DJB induced a 50% reduction of SGLT1-mediated glucose uptake into enterocytes of duodenum and jejunum (P < 0.001). The concentration of D-glucose in the blood following glucose gavage increased more slowly after DJB versus sham. CONCLUSIONS: The data indicate that DJB surgery decreases glucose absorption in the small intestine by downregulation of SGLT1-mediated glucose uptake. We suggest that the downregulation of SGLT1 contributes to the body-weight independent improvement of diabetes type 2.
OBJECTIVE: To elucidate whether duodenal-jejunal-bypass (DJB), which improves blood glucose control, changes activity of Na-D-glucose cotransporter SGLT1 in small intestine. BACKGROUND: DJB has been shown to improve oral glucose tolerance in normal rats and a genetic diabeticrat model. Because intestinal D-glucose absorption is mediated by SGLT1 localized in the brush border membrane of small intestinal enterocytes, it is unclear whether function of SGLT1 is altered by DJB and whether this contributes to the improvement of glycemic control. METHODS: A high-fat diet and low-dose streptozotocin administration were used to induce a type 2 diabetes in male Lewis rats. The diabetic animals underwent DJB or sham surgery. An oral glucose tolerance test (OGTT) was used to evaluate glucose control 3 weeks after surgery. SGLT1-mediated glucose transport was assessed using everted rings of different small intestinal segments. SGLT1 mRNA expression was determined by quantitative reverse transcription polymerase chain reaction (RT-PCR). RESULTS: DJB improved the OGTT significantly (P < 0.001) compared with sham-operated rats while body weight was not different among the surgical groups. DJB induced a 50% reduction of SGLT1-mediated glucose uptake into enterocytes of duodenum and jejunum (P < 0.001). The concentration of D-glucose in the blood following glucose gavage increased more slowly after DJB versus sham. CONCLUSIONS: The data indicate that DJB surgery decreases glucose absorption in the small intestine by downregulation of SGLT1-mediated glucose uptake. We suggest that the downregulation of SGLT1 contributes to the body-weight independent improvement of diabetes type 2.
Authors: Florian Seyfried; Marco Bueter; Kerstin Spliethoff; Alexander D Miras; Kathrin Abegg; Thomas A Lutz; Carel W le Roux Journal: Obes Surg Date: 2014-11 Impact factor: 4.129
Authors: Florian Seyfried; Alexander D Miras; Laura Rotzinger; Arno Nordbeck; Caroline Corteville; Jia V Li; Nicolas Schlegel; Mohammed Hankir; Wiebke Fenske; Christoph Otto; Christian Jurowich Journal: Obes Surg Date: 2016-06 Impact factor: 4.129