Abstract
Consumption of different types of high-calorie foods leads to the development of various metabolic disorders. However, the effects of multi-strain probiotics on different types of diet-induced obesity and intestinal dysbiosis remain unclear. In this study, mice were fed a control diet, high-fat diet (HFD; 60% kcal fat and 20% kcal carbohydrate), or western diet (WD; 40% kcal fat and 43% kcal carbohydrate) and administered with multi-strain AB-Kefir containing six strains of lactic acid bacteria and a Bifidobacterium strain, at 109 CFU per mouse for 10 weeks. Results demonstrated that AB-Kefir reduced body weight gain, glucose intolerance, and hepatic steatosis with a minor influence on gut microbiota composition in HFD-fed mice, but not in WD-fed mice. In addition, AB-Kefir significantly reduced the weight and size of adipose tissues by regulating the expression of CD36, Igf1, and Pgc1 in HFD-fed mice. Although AB-Kefir did not reduce the volume of white adipose tissue, it markedly regulated CD36, Dgat1 and Mogat1 mRNA expression. Moreover, the abundance of Eubacterium_coprostanoligenes_group and Ruminiclostridium significantly correlated with changes in body weight, liver weight, and fasting glucose in test mice. Overall, this study provides important evidence to understand the interactions between probiotics, gut microbiota, and diet in obesity treatment.
Highlights
Fermented foods have a long history of use and have shown beneficial effects in humans
Probiotic strains were administered at 109 CFU/mouse/day to high-fat diet (HFD)- or western diet (WD)-fed mice for 10 weeks, to evaluate their anti-obesity effects
We speculated that the effect of AB-Kefir on the reduction of body weight in mice was due to the impact on energy balance since energy expenditure and fat absorption were not measured
Summary
Fermented foods have a long history of use and have shown beneficial effects in humans. Kefir has been distinguished as an important food conferring various health benefits, including anti-pathogens [1], anti-inflammation [2], and anti-tumor properties [3], as well as improving lactose tolerance [4], lowering cholesterol [5], and ameliorating fatty liver disease [6] and obesity [7]. These characteristics of kefir have attracted researchers to evaluate its functional properties that have not been understood till date. The effects of these strains on obesity remain unknown
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