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- Title
Sodium‐glucose cotransporter 2 inhibitors regulate ketone body metabolism via inter‐organ crosstalk.
- Authors
Kim, Jin Hee; Lee, Minyoung; Kim, Soo Hyun; Kim, So Ra; Lee, Byung‐Wan; Kang, Eun Seok; Cha, Bong‐Soo; Cho, Jin Won; Lee, Yong‐ho
- Abstract
Aim: To investigate sodium‐glucose cotransporter 2 inhibitor (SGLT2i)‐induced changes in ketogenic enzymes and transporters in normal and diabetic mice models. Materials and methods: Normal mice were randomly assigned to receive either vehicle or SGLT2i (25 mg/kg/d by oral gavage) for 7 days. Diabetic mice were treated with vehicle, insulin (4.5 units/kg/d by subcutaneous injection) or SGLT2i (25 mg/kg/d by intra‐peritoneal injection) for 5 weeks. Serum and tissues of ketogenic organs were analysed. Results: In both normal and diabetic mice, SGLT2i increased beta‐hydroxybutyrate (BHB) content in liver, kidney and colon tissue, as well as in serum and urine. In these organs, SGLT2i upregulated mRNA expression of ketogenic enzymes, 3‐hydroxy‐3‐methylglutaryl‐coenzyme A synthase 2 and 3‐hydroxy‐3‐methylglutaryl‐coenzyme A lyase. Similar patterns were observed in the kidney, ileum and colon for mRNA and protein expression of sodium‐dependent monocarboxylate transporters (SMCTs), which mediate the cellular uptake of BHB and butyrate, an important substrate for intestinal ketogenesis. In diabetic mice under euglycaemic conditions, SGLT2i increased major ketogenic enzymes and SMCTs, while insulin suppressed ketogenesis. Conclusions: SGLT2i increased systemic and tissue BHB levels by upregulating ketogenic enzymes and transporters in the liver, kidney and intestine, suggesting the integrated physiological consequences for ketone body metabolism of SGLT2i administration.
- Subjects
SODIUM-glucose cotransporters; KETONES; METABOLISM; MESSENGER RNA; DIABETES; 3-Hydroxybutyric acid
- Publication
Diabetes, Obesity & Metabolism, 2019, Vol 21, Issue 4, p801
- ISSN
1462-8902
- Publication type
Article
- DOI
10.1111/dom.13577