Moderate-intensity continuous training and high-intensity interval training alleviate glycolipid metabolism through modulation of gut microbiota and their metabolite SCFAs in diabetic rats

Glucose and lipid metabolism disorders are typical of diabetic patients and are important factors leading to macrovascular and microvascular complications. The aim of this study was to understand the effects of different exercises on glycolipid metabolism in diabetic rats and the role of gut flora in metabolic maintenance. We measured glycolipid metabolic indices and short-chain fatty acids (SCFAs) content and sequenced and analyzed gut microbes after 8 weeks of moderate-intensity continuous training (MICT) and high-intensity interval training (HIIT) programs in type 2 diabetic rats(T2DM). We found that Enterococcaceae, Enterococcus, Subdoligranulum, Kurthia, Bacillales, and Planococcaceae may be key bacterial taxa related to T2DM and that both programs of exercise regulated the intestinal flora of rats with T2DM, improved their glycolipid metabolism, increased the abundance of SCFA-producing intestinal bacteria, and it was found that the PWY-5676 and P163-PWY pathways which are closely related to production of SCFAs were significantly upregulated in the exercise groups. Notably, MICT appeared to be more effective than HIIT in increasing the homogeneity of rat intestinal flora, enriching species, and increasing acetic acid and butyric acid content. These results suggest that exercise improves glycolipid metabolism in diabetic rats, which may be attributed to alterations in the structure of their intestinal flora. ●The gut microbiota function of the high-intensity interval exercise group seems to be more similar to that of the normal group●The disorder of glucose and lipid metabolism in diabetes rats may be attributed to the change of intestinal flora structure●The pathways closely related to the production of short chain fatty acids, such as PWY-5676 and P163-PWY, were significantly upregulated in the exercise group●Exercise can increase the abundance of SCFAs producing bacteria such as Allobaculum, Coprococcus, Rothia, and [Ruminococcus]