AI Article Synopsis
- Roux-en-Y gastric bypass (RYGB) shows antidiabetes effects, but the exact mechanisms behind it remain unclear, particularly regarding how isolating the proximal small intestine and its glucose sensors impacts these effects.
- In a rodent study, researchers isolated a segment of the proximal intestine and stimulated it with glucose analogs, which revealed that isolating this section decreased glucose absorption (Gabsorp) and secretion of the hormone GLP-1.
- Stimulation of the SGLT3 protein increased both Gabsorp and GLP-1 secretion, but these effects required the vagus nerve, while sweet taste receptor stimulation only elevated GLP-1 levels, highlighting SGLT3's potential as a target for diabetes treatment.
Article Abstract
The antidiabetes effects of Roux-en-Y gastric bypass (RYGB) are well-known, but the underlying mechanisms remain unclear. Isolating the proximal small intestine, and in particular its luminal glucose sensors, from the nutrient stream has been proposed as a critical change, but the pathways involved are unclear. In a rodent model, we tested the effects of isolating and then stimulating a segment of proximal intestine using glucose analogs to examine their impact on glucose absorption (Gabsorp) and hormone secretion after a glucose bolus into the distal jejunum. Analogs selective for sodium-glucose cotransporter (SGLT) family members and the sweet taste receptor were tested, and measurements of the portosystemic gradient were used to determine Gabsorp and hormone secretion, including GLP-1. Proximal intestinal isolation reduced Gabsorp and GLP-1 secretion. Stimulation of the glucose-sensing protein SGLT3 increased Gabsorp and GLP-1 secretion. These effects were abolished by vagotomy. Sweet taste receptor stimulation only increased GLP-1 secretion. This study suggests a novel role for SGLT3 in coordinating intestinal function, as reflected by the concomitant modulation of Gabsorp and GLP-1 secretion, with these effects being mediated by the vagus nerve. Our findings provide potential mechanistic insights into foregut exclusion in RYGB and identify SGLT3 as a possible antidiabetes therapeutic target.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4439569 | PMC |
| http://dx.doi.org/10.2337/db14-1578 | DOI Listing |
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