Abstract

PS-B1 is a fermented product prepared from soy flour using lactic acid bacteria. Over a 10-week period, C57BL/6J mice were reared under laboratory conditions on a normal diet (control, n=5), high-fat diet (HF, n=5), or high-fat diet supplemented with 4% PS-B1 (HF-P, n=6). After 10 weeks, the change in weight gain, intestinal and epididymal fat accumulation, serum and liver biochemical parameters, and gene expression in the mice was investigated. HF diet-induced weight gain and increase in intestinal and epididymal fat accumulation were lower in mice fed with HF-P diet than in mice fed with HF diet, suggesting that PS-B1 prevented HF diet-induced obesity in HF-P mice. Furthermore, the levels of liver lipids (triglycerides, TG; non-esterified fatty acid, NEFA; total cholesterol, TC), serum TC, serum glucose, and serum insulin were significantly increased in the HF group than those in control mice. In HF-P mice, neither serum TC nor serum glucose levels were reduced. In contrast, the levels of liver lipids and serum insulin were lower in HF-P mice than in HF mice, suggesting that PS-B1 reduced these parameters in HF-P mice. The homeostatic model assessment of insulin resistance (HOMA-IR) value, which was calculated from the serum glucose and insulin levels, was 21.5 ± 4.2 in the HF mice. However, the HOMA-IR (8.2 ± 0.2) values were significantly decreased in the HF-P mice, suggesting that PS-B1 improves insulin resistance. Additionally, we compared the expression levels of stearoyl-CoA desaturase-1 (Scd1) in the liver. Quantitative RT-PCR showed increased expression of Scd1 in HF mice compared to that in control mice. Furthermore, ingestion of PS-B1 led to reduced expression of Scd1 mRNA in HF-P mice, implying that PS-B1 is effective in reducing the expression of the gene encoding SCD1. These results suggest that the anti-obesity effect of PS-B1 and improvement in fat accumulation upon PS-B1 uptake may be due to improvement in insulin resistance and reduction in the expression level of Scd1.

Highlights

  • Lifestyle-related diseases is the generic term for diseases associated with individuals’ way of life, including hypertension, dyslipidemia, and diabetes

  • HF diet-induced increase in intestinal and epididymal fat was lower in HF-P mice than in HF mice (Table 4)

  • It is highly possible that PS-B1, which is a fermented product of intestinal bacteria, exhibits a similar effect by itself or by activating the intestinal bacterial flora of the host

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Summary

Introduction

Lifestyle-related diseases is the generic term for diseases associated with individuals’ way of life, including hypertension, dyslipidemia, and diabetes. These diseases are triggered by certain lifestyles, such as eating habits and exercise habits, which reduce healthy life expectancy. As a lifestyle-related disease progresses, complications occur, leading to decrease in quality of life. For this reason, many health foods and supplements have been developed, which are sold as primary preventive measures. Attention has been focused on the usefulness of biogenics for the prevention and improvement of lifestyle-related diseases [5,6,7].

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