Evaluation of Methionine Content in a High-Fat and Choline-Deficient Diet on Body Weight Gain and the Development of Non-Alcoholic Steatohepatitis in Mice

n-3 PUFA have shown potential anti-obesity and insulin-sensitising properties. However, the mechanisms involved are not clearly established. The aim of the present study was to assess the effects of EPA administration, one of the n-3 PUFA, on body-weight gain and adiposity in rats fed on a standard or a high-fat (cafeteria) diet. The actions on white adipose tissue lipolysis, apoptosis and on several genes related to obesity and insulin resistance were also studied. Control and cafeteria-induced overweight male Wistar rats were assigned into two subgroups, one of them daily received EPA ethyl ester (1 g/kg) for 5 weeks by oral administration. The high-fat diet induced a very significant increase in both body weight and fat mass. Rats fed with the cafeteria diet and orally treated with EPA showed a marginally lower body-weight gain (P = 0·09), a decrease in food intake (P < 0·01) and an increase in leptin production (P < 0·05). EPA administration reduced retroperitoneal adipose tissue weight (P < 0·05) which could be secondary to the inhibition of the adipogenic transcription factor PPARγ gene expression (P < 0·001), and also to the increase in apoptosis (P < 0·05) found in rats fed with a control diet. TNFα gene expression was significantly increased (P < 0·05) by the cafeteria diet, while EPA treatment was able to prevent (P < 0·01) the rise in this inflammatory cytokine. Adiposity-corrected adiponectin plasma levels were increased by EPA. These actions on both TNFα and adiponectin could explain the beneficial effects of EPA on insulin resistance induced by the cafeteria diet.

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Peer Review #1 of "Rice koji reduced body weight gain, fat accumulation, and blood glucose level in high-fat diet-induced obese mice (v0.1)"

10.7287/peerj.540v0.1/reviews/1 ◽

2014 ◽

Keyword(s):

Body Weight ◽

Weight Gain ◽

Blood Glucose ◽

Blood Glucose Level ◽

Glucose Level ◽

High Fat Diet ◽

Body Weight Gain ◽

Obese Mice ◽

High Fat ◽

Reduced Body

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Lactobacillus rhamnosus strain LRH05 intervention ameliorated body weight gain and adipose inflammation via modulating the gut microbiota in high‐fat diet‐induced obese mice

Molecular Nutrition & Food Research ◽

10.1002/mnfr.202100348 ◽

2021 ◽

pp. 2100348

Author(s):

Yung‐Tsung Chen ◽

Shiou‐Yun Chiou ◽

Ai‐Hua Hsu ◽

Yu‐Chun Lin ◽

Jin‐Seng Lin

Keyword(s):

Body Weight ◽

Weight Gain ◽

Gut Microbiota ◽

High Fat Diet ◽

Body Weight Gain ◽

Lactobacillus Rhamnosus ◽

Obese Mice ◽

High Fat ◽

Adipose Inflammation

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High-fat and low-fat (behavioural) phenotypes: biology or environment?

Proceedings of The Nutrition Society ◽

10.1017/s0029665199001056 ◽

1999 ◽

Vol 58 (4) ◽

pp. 773-777 ◽

Cited By ~ 26

Author(s):

John E. Blundell ◽

John Cooling

Keyword(s):

Risk Factors ◽

Body Weight ◽

Risk Factor ◽

Weight Gain ◽

High Fat Diet ◽

Body Weight Gain ◽

Positive Energy ◽

High Fat ◽

Low Fat ◽

Conceptual Tool

It is now widely accepted that obesity develops by way of genetic mechanisms conferring specific dispositions which interact with strong environmental pressures. It is also accepted that certain dispositions constitute metabolic risk factors for weight gain. It is less well accepted that certain patterns of behaviour (arising from biological demands or environmental influences) put individuals at risk of developing a positive energy balance and weight gain (behavioural risk factors). Relevant patterns of behaviour include long-lasting habits for selecting and eating particular types of foods. Such habits define two distinct groups characterized as high-fat (HF) and low-fat (LF) phenotypes. These habits are important because of the attention given to dietary macronutrients in body-weight gain and the worldwide epidemic of obesity. Considerable evidence indicates that the total amount of dietary fat consumed remains the most potent food-related risk factor for weight gain. However, although habitual intake of a high-fat diet is a behavioural risk factor for obesity, it does not constitute a biological inevitability. A habitual low-fat diet does seem to protect against the development of obesity, but a high-fat diet does not guarantee that an individual will be obese. Although obesity is much more prevalent among HF than LF, some HF are lean with BMI well within the normal range. The concept of 'different routes to obesity' through a variety of nutritional scenarios can be envisaged, with predisposed individuals varying in their susceptibility to different dietary inputs. In a particular subgroup of individuals (young adult males) HF and LF displayed quite different profiles of appetite control, response to nutrient challenges and physiological measures, including BMR, RQ, heart rate, plasma leptin levels and thermogenic responses to fat and carbohydrate meals. These striking differences suggest that HF and LF can be used as a conceptual tool to investigate the relationship between biology and the environment (diet) in the control of body weight.

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Limonoid 7-Deacetoxy-7-oxogedunin from Andiroba, Carapa guianensis, Meliaceae, Decreased Body Weight Gain, Improved Insulin Sensitivity, and Activated Brown Adipose Tissue in High-Fat-Diet-Fed Mice

Journal of Agricultural and Food Chemistry ◽

10.1021/acs.jafc.9b04362 ◽

2019 ◽

Vol 67 (36) ◽

pp. 10107-10115 ◽

Cited By ~ 1

Author(s):

Chihiro Matsumoto ◽

Toko Maehara ◽

Reiko Tanaka ◽

Ko Fujimori

Keyword(s):

Body Weight ◽

Adipose Tissue ◽

Weight Gain ◽

Insulin Sensitivity ◽

Brown Adipose Tissue ◽

High Fat Diet ◽

Body Weight Gain ◽

High Fat ◽

Carapa Guianensis ◽

Brown Adipose

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Long-term consequences of maternal high-fat feeding on hypothalamic leptin sensitivity and diet-induced obesity in the offspring

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.00117.2007 ◽

2007 ◽

Vol 293 (3) ◽

pp. R1056-R1062 ◽

Cited By ~ 123

Author(s):

Jacqueline Férézou-Viala ◽

Anne-France Roy ◽

Colette Sérougne ◽

Daniel Gripois ◽

Michel Parquet ◽

...

Keyword(s):

Body Weight ◽

Weight Gain ◽

Body Weight Gain ◽

Maternal Diet ◽

The Body ◽

Female Rats ◽

Leptin Resistance ◽

High Fat ◽

Leptin Sensitivity ◽

The Impact

Epidemiological and animal studies suggest that the alteration of hormonal and metabolic environment during fetal and neonatal development can contribute to development of metabolic syndrome in adulthood. In this paper, we investigated the impact of maternal high-fat (HF) diet on hypothalamic leptin sensitivity and body weight gain of offspring. Adult Wistar female rats received a HF or a control normal-fat (C) diet for 6 wk before gestation until the end of the suckling period. After weaning, pups received either C or HF diet during 6 wk. Body weight gain and metabolic and endocrine parameters were measured in the eight groups of rats formed according to a postweaning diet, maternal diet, and gender. To evaluate hypothalamic leptin sensitivity in each group, STAT-3 phosphorylation was measured in response to leptin or saline intraperitoneal bolus. Pups exhibited similar body weights at birth, but at weaning, those born to HF dams weighed significantly less (−12%) than those born to C dams. When given the HF diet, males and females born to HF dams exhibited smaller body weight and feed efficiency than those born to C dams, suggesting increased energy expenditure programmed by the maternal HF diet. Thus, maternal HF feeding could be protective against adverse effects of the HF diet as observed in male offspring of control dams: overweight (+17%) with hyperleptinemia and hyperinsulinemia. Furthermore, offspring of HF dams fed either C or HF diet exhibited an alteration in hypothalamic leptin-dependent STAT-3 phosphorylation. We conclude that maternal high-fat diet programs a hypothalamic leptin resistance in offspring, which, however, fails to increase the body weight gain until adulthood.

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