• Biomedical Science Letters
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• v.23 no.3
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• pp.261-271
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• 2017

It has been suggested that ginseng is beneficial for ameliorating the aging males' symptoms, such as weight gain, fatigue, erectile dysfunction, and depression, in elderly men with testosterone deficiency. We thus investigated the effects of Korean red ginseng (Panax ginseng C.A. Meyer; Araliaceae) on obesity in a mouse model of testosterone deficiency (castrated C57BL/6J mice). The effects of ginseng extract (GE) and/or testosterone on obesity and adipogenesis in high-fat diet (HFD)-fed castrated C57BL/6J mice and 3T3-L1 adipocytes were examined using in vivo and in vitro approaches. After feeding mice a HFD for 8 weeks, we found that mice also receiving GE and/or testosterone showed decreased body weight, adipose tissue mass, adipocyte size, and hepatic lipid accumulation compared with untreated HFD-fed mice. Expression of adipogenic genes ($PPAR{\gamma}$, $C/EBP{\alpha}$, and aP2) was decreased by GE and/or testosterone in adipose tissues. Consistent with the in vivo data, lipid accumulation and the mRNA expression of adipogenesis genes in 3T3-L1 adipocytes were decreased by GE, ginsenosides, and testosterone. The inhibitory effects of GE (or ginsenosides) were comparable to those of testosterone, and the effects of co-treatment with GE (or ginsenosides) and testosterone were greater than those of testosterone alone in vivo and in vitro. Our results indicate that ginseng may be able to potentiate the inhibitory effects of testosterone on obesity and adipogenesis in HFD-fed castrated mice, providing possible therapeutic implications in men with testosterone deficiency.

• Microbiology and Biotechnology Letters
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• v.45 no.4
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• pp.284-290
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• 2017

We investigated the anti-obesity effects of the water extract from Orostachys japonicus in high-fat-fed mice. For the analysis, 24 mice were divided into four groups: normal (N) group, high-fat diet (HFD) group, high-fat diet supplemented with 2.5% O. japonicus (HFD-OJL) group, and high-fat diet supplemented with 5% O. japonicus (HFD-OJH) group. The body weight gain and food efficiency ratio increased with a high-fat diet, but significantly decreased in the HFD-OJ groups compared with those in the HFD group. Levels of serum triglyceride, total cholesterol, and LDL-cholesterol were significantly lower, but the HDL-cholesterol level was significantly higher in the HFD-OJH group. The adipocytes within the epididymal adipose tissue were found to have expanded in the HFD group. However, the adipocytes in the HFD-OJ groups were comparable to those of the N group. These results suggest that O. japonicus has potential as an anti-obesity agent by decreasing body weight and lowering the serum lipid levels in obese mice.

• Asian Pacific Journal of Cancer Prevention
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• v.16 no.2
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• pp.683-687
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• 2015

Aloe vera gel exhibits protective effects against insulin resistance as well as lipid-lowering and anti-diabetic effects. The anti-diabetic compounds in this gel were identified as Aloe-sterols. Aloe vera gel extract (AVGE) containing Aloe-sterols has recently been produced using a new procedure. We previously reported that AVGE reduced large-sized intestinal polyps in Apc-deficient Min mice fed a high fat diet (HFD), suggesting that Aloe vera gel may protect against colorectal cancer. In the present study, we examined the effects of Aloe vera gel powder (AVGP) and AVGE on azoxymethane-induced colorectal preneoplastic aberrant crypt foci (ACF) in mice fed a HFD. Male C57BL/6J mice were given a normal diet (ND), HFD, HFD containing 0.5% carboxymethyl cellulose solution, which was used as a solvent for AVGE (HFDC), HFD containing 3% or 1% AVGP, and HFDC containing 0.0125% (H-) or 0.00375% (L-) AVGE. The number of ACF was significantly lower in mice given 3% AVGP and H-AVGE than in those given HFD or HFDC alone. Moreover, 3% AVGP, H-AVGE and L-AVGE significantly decreased the mean Ki-67 labeling index, assessed as a measure of cell proliferation in the colonic mucosa. In addition, hepatic phase II enzyme glutathione S-transferase mRNA levels were higher in the H-AVGE group than in the HFDC group. These results suggest that both AVGP and AVGE may have chemopreventive effects on colorectal carcinogenesis under the HFD condition. Furthermore, the concentration of Aloe-sterols was similar between 3% AVGP and H-AVGE, suggesting that Aloe-sterols were the main active ingredients in this experiment.

• Journal of the Korean Society of Food Science and Nutrition
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• v.38 no.11
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• pp.1522-1527
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• 2009

We investigated the effects of feeding diet containing medicinal plant water extracts (MPWEs) on body weight, epididymal adipose tissue weight, adipocyte size of epididymal adipose tissue and plasma lipid levels in high fat (HF) diet-induced obese mice. To test antiobese effects of diet containing the MPWEs, C57BL/6J mice were fed with HF diet for 11 weeks. In the last 6 weeks, the HF diet was supplemented with 0 (HFD) or MPWEs (5 g/kg, HFD＋MPWEs) or orlistat [0.5 g/kg, HFD＋orlistat (antiobesity drug)]. The HF-free diet group was fed normal chow for 11 weeks. Eleven-weeks feeding with HFD resulted in significant increase in lipid levels, body weight, liver and epididymal adipose tissue weights, compared with the HF-free group. Diet containing MPWEs significantly reduced plasma total cholesterol, LDL-cholesterol, triglyceride and glucose concentrations as well as body weight, liver weight and epididymal adipose tissue weight. Plasma triglyceride levels were significantly lower in the HFD＋Forlistat group after 6 weeks and a similar effect was found with HFD＋MPWEs group. The adipocyte size of epididymal adipose tissue in HFD group was significantly larger than those of HF-free group. MPWEs and orlistat (positive control) significantly decreased the size of epididymal adipocytes but orlistat was slightly more effective than MPWEs. These results suggest that oral feeding of the MPWEs may have antiobesity effects by suppressing body weight gain, adipose tissue formation and adipocyte size increase.

• Journal of Society of Preventive Korean Medicine
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• v.15 no.1
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• pp.29-36
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• 2011

The hypoglycemic and hypolipidemic effects of Allium victorialis (AV) leaf methanol extract were evaluated in a high fat diet (HFD) supplied mice. Changes on the serum glucose, total cholesterol, triglyceride, low density lipoprotein and high density lipoprotein were examined. The effects were compared with those of a group given 250 mg/kg of metformin. After 91 days of a continuous HFD supply, the mice were showed marked hyperglycemia and hyperlipemia. However, these hyperglycemia and hyperlipemia induced by the HFD were inhibited by the AV extract treatment at the three different doses (62.5, 125 and 250 mg/kg). The results suggest that the AV methanol extract is beneficial for improving the diet-induced hyperlipidemia and hyperglycemia in humans.

• Nutrition Research and Practice
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• v.5 no.3
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• pp.219-223
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• 2011

Obesity has been reported to be associated with low grade inflammatory status. In this study, we investigated the inflammatory response as well as associated signaling molecules in immune cells from diet-induced obese mice. Four-week-old C57BL mice were fed diets containing 5% fat (control) or 20% fat and 1% cholesterol (HFD) for 24 weeks. Splenocytes ($1{\times}10^7$ cells) were stimulated with $10\;{\mu}g/mL$ of lipopolysaccharide (LPS) for 6 or 24 hrs. Production of interleukin (IL)-$1{\beta}$, IL-6, and TNF-${\alpha}$ as well as protein expression levels of nucleotide-binding oligomerization domain (NOD)2, signal transducer and activator of transcription (STAT)3, and pSTAT3 were determined. Mice fed HFD gained significantly more body weight compared to mice fed control diet ($28.2{\pm}0.6$ g in HFD and $15.4{\pm}0.8$ g in control). After stimulation with LPS for 6 hrs, production of IL-$1{\beta}$ was significantly higher (P=0.001) and production of tumor necrosis factor (TNF)-${\alpha}$ tended to be higher (P < 0.064) in the HFD group. After 24 hrs of LPS stimulation, splenocytes from the HFD group produced significantly higher levels of IL-6 ($10.02{\pm}0.66$ ng/mL in HFD and $7.33{\pm}0.56$ ng/mL in control, P=0.005) and IL-$1{\beta}$ ($121.34{\pm}12.72$ pg/mL in HFD and $49.74{\pm}6.58$ pg/mL in control, P < 0.001). There were no significant differences in the expression levels of STAT3 and pSTAT3 between the HFD and the control groups. However, the expression level of NOD2 protein as determined by Western blot analysis was 60% higher in the HFD group compared with the control group. NOD2 contributes to the induction of inflammation by activation of nuclear factor ${\kappa}B$. These findings suggest that diet-induced obesity is associated with increased inflammatory response of immune cells, and higher expression of NOD2 may contribute to these changes.

• Journal of Dairy Science and Biotechnology
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• v.39 no.2
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• pp.78-85
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• 2021

Previously, we showed that oral administration of probiotics, Lactobacillus acidophilus NS1 (LNS1), improved insulin sensitivity in high-fat-diet-fed mice (HFD mice). Furthermore, LNS1-conditioned media (LNS1-CM) reduced HNF4α transcription activity and the expression of phosphoenol pyruvate carboxykinase (PEPCK), a key enzyme in gluconeogenesis in HepG2 cells. In this study, we demonstrated that LNS1 administration increased the expression of glycosyltransferase 2 (GYS2) and glucose transporter 2 (GLUT2), while reduced the expression of glucose-6-phosphatase (G6PC) expression in liver of HFD mice. Furthermore, LNS1 suppressed hepatic expression of glucokinase regulatory unit (GCKR) in HFD mice without changing the mRNA levels of glucokinase (GCK), suggesting that LNS1 may inhibit nuclear GCK activity. Consistently, addition of LNS1-CM to HepG2 cells increased the mRNA levels of GYS2 and GLUT2 with reduced mRNA levels of G6PC and GCKR. Moreover, hepatic glycogen contents were increased in HFD mice upon administration of LNS1. Together, these results suggest that LNS1 facilitates glycogen accumulation in liver by regulating the expression of genes involved in glycogen metabolism, contributing to improved insulin sensitivity in the HFD mice.

• Journal of Microbiology and Biotechnology
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• v.26 no.2
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• pp.295-308
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• 2016

This study investigated the effects of a flavonoid-rich ethanol extract of persimmon leaf (PL), an ethanol extract of Citrus junos Sieb (CJS), and a PL-CJS mixture (MPC) on mice fed a high-fat diet (HFD). We sought to elucidate the mechanisms of biological activity of these substances using measurements of blood coagulation indices and lipid metabolism parameters. C57BL/6J mice were fed a HFD with PL (0.5% (w/w)), CJS (0.1% (w/w)), or MPC (PL 0.5%, CJS 0.1% (w/w)) for 10 weeks. In comparison with data obtained for mice in the untreated HFD group, consumption of MPC remarkably prolonged the activated partial thromboplastin time (aPTT) and prothrombin time (PT), whereas exposure to PL prolonged aPTT only. Lower levels of plasma total cholesterol, hepatic cholesterol, and erythrocyte thiobarbituric acid-reactive substances, hepatic HMG-CoA reductase, and decreased SREBP-1c gene expression were observed in mice that received PL and MPC supplements compared with the respective values detected in the untreated HFD animals. Our results indicate that PL and MPC may have beneficial effects on blood circulation and lipid metabolism in obese mice.

• Journal of Ginseng Research
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• v.46 no.3
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• pp.454-463
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• 2022

Background: Gintonin-enriched fraction (GEF), a non-saponin fraction of ginseng, is a novel glycolipoprotein rich in hydrophobic amino acids. GEF has recently been shown to regulate lipid metabolism and browning in adipocytes; however, the mechanisms underlying its effects on energy metabolism and whether it affects sarcopenic obesity are unclear. We aimed to evaluate the effects of GEF on skeletal muscle atrophy in high-fat diet (HFD)-induced obese mice. Methods: To examine the effect of GEF on sarcopenic obesity, 4-week-old male ICR mice were used. The mice were divided into four groups: chow diet (CD), HFD, HFD supplemented with 50 mg/kg/day GEF, or 150 mg/kg/day GEF for 6 weeks. We analyzed body mass gain and grip strength, histological staining, western blot analysis, and immunofluorescence to quantify changes in sarcopenic obesity-related factors. Results: GEF inhibited body mass gain while HFD-fed mice gained 22.7 ± 2.0 g, whereas GEF-treated mice gained 14.3 ± 1.2 g for GEF50 and 11.8 ± 1.6 g for GEF150 by downregulating adipogenesis and inducing lipolysis and browning in white adipose tissue (WAT). GEF also enhanced mitochondrial biogenesis threefold in skeletal muscle. Furthermore, GEF-treated skeletal muscle exhibited decreased expression of muscle-specific atrophic genes, and promoted myogenic differentiation and increased muscle mass and strength in a dose-dependent manner (p < 0.05). Conclusion: These findings indicate that GEF may have potential uses in preventing sarcopenic obesity by promoting energy expenditure and attenuating skeletal muscle atrophy.

• Journal of Korean Medicine for Obesity Research
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• v.17 no.2
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• pp.119-126
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• 2017

Objectives: This study investigated the effects of the mixed herbal extract from Cinnamomum cassia Blume, Atractylodes macrocephala Koidzumi, Pueraria lobata Benth, and Aconitum carmichaeli Debx (CAPA) on obesity and glucose tolerance in obese mice. Methods: Animals were divided in 6 groups, normal diet, high fat diet (HFD), HFD with CAPA 100 mg/kg (CAPA 100), CAPA 300 mg/kg (CAPA 300), and metformin 200 mg/kg or lorcaserin 10 mg/kg as positive controls, and treated for 16 weeks. Body weight, food intake, fasting blood glucose, and body temperature were checked every week and then organs, blood serums were collected after treatment. The oral glucose tolerance test was also carried out after treatment. Results: Compared to HFD, CAPA extract treated mice showed significant decreases in body weight, adipose tissue weight, lipid accumulations in liver and serum lipid levels without a reduction of food intake. And fasting glucose and glucose tolerance were all improved in the CAPA treated mice. Conclusions: Our results suggest that CAPA extract can prevent diet induced obesity and glucose intolerance without a reduction of energy intake in obese mice.