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Target Concepts:
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Query: UMLS:C0311277 (
abdominal obesity
)
2,792
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Metabolic syndrome (MS) is a cluster of metabolic disorders such as
abdominal obesity
, hypertension, glucose intolerance, dyslipidemia and hepatic steatosis that contribute to increased cardiovascular morbidity and mortality. There is an urgent need for strategies to prevent this emerging global epidemic. Recently, growing interest in discovering food functional nutrients for the prevention and treatment of MS has generated. In the present study, sea cucumber cerebrosides (SCC) and the main structural units, long-chain bases (LCB), were prepared from Acaudina molpadioides and then administered to high fat (HF) diet-induced obese C57BL/6J mice at a diet supplement dosage of 0.025% for 5 weeks to evaluate their effects on obesity-related metabolic disorders. SCC and LCB significantly decreased epididymal adipose tissue weights, lowered hepatic triacylglycerol levels, and reduced serum glucose, insulin levels and HOMA-IR index in mice. The activities of hepatic lipogenetic enzymes including FAS, ME and the mRNA levels of SREBP-1c and FAS were reduced by SCC and LCB treatment. However, SCC and LCB showed no effect on the hepatic lipolysis pathway. Besides, SCC and LCB also efficiently up-regulated the gene expression of SREBP-1c, FAS, ACC,
ATGL
and HSL, and down-regulated the gene expression of LPL and VLDL-r in the adipose tissue. These results demonstrated that SCC and LCB were efficacious in suppressing hepatic SREBP-1c mediated lipogenesis, inhibiting lipid uptake and increasing TG catabolism in the adipose tissue. The ameliorative degree and regulatory mechanisms of these two compounds were basically the same, suggesting that LCB are the key active structural units. Such findings would offer new insight into the application of SCC or LCB in the development of functional foods for preventing MS in humans.
...
PMID:Sea cucumber cerebrosides and long-chain bases from Acaudina molpadioides protect against high fat diet-induced metabolic disorders in mice. 2639 28
Late-onset hypogonadism (i.e. androgen deficiency) raises the risk for
abdominal obesity
in men. The mechanism for this obesity is unclear. Here, we demonstrated that hypogonadism after castration caused
abdominal obesity
in high-fat diet (HFD)-fed, but not in standard diet (SD)-fed, C57BL/6J mice. Furthermore, the phenotype was not induced in mice treated with antibiotics that disrupt the intestinal microflora. In HFD-fed mice, castration increased feed efficiency and decreased fecal weight per food intake. Castration also induced in an increase of visceral fat mass only in the absence of antibiotics in HFD-fed mice, whereas subcutaneous fat mass was increased by castration irrespective of antibiotics. Castration reduced the expression in the mesenteric fat of both
adipose triglyceride lipase
and hormone-sensitive lipase in HFD-fed mice, which was not observed in the presence of antibiotics. Castration decreased thigh muscle (i.e. quadriceps and hamstrings) mass, elevated fasting blood glucose levels, and increased liver triglyceride levels in a HFD-dependent manner, whereas these changes were not observed in castrated mice treated with antibiotics. The Firmicutes/Bacteroidetes ratio and Lactobacillus species increased in the feces of HFD-fed castrated mice. These results show that androgen (e.g. testosterone) deficiency can alter the intestinal microbiome and induce
abdominal obesity
in a diet-dependent manner.
...
PMID:Castration influences intestinal microflora and induces abdominal obesity in high-fat diet-fed mice. 2696 73
