Behavioural effects of high fat diet in adult Nrg1 type III transgenic mice

Single-minded 1 (SIM1) mutations are associated with obesity in mice and humans. Haploinsufficiency of mouse Sim1 causes hyperphagic obesity with increased linear growth and enhanced sensitivity to a high-fat diet, a phenotype similar to that of agouti yellow and melanocortin 4 receptor knockout mice. To investigate the effects of increased Sim1 dosage, we generated transgenic mice that overexpress human SIM1 and examined their phenotype. Compared with wild-type mice, SIM1 transgenic mice had no obvious phenotype on a low-fat chow diet but were resistant to diet-induced obesity on a high-fat diet due to reduced food intake with no change in energy expenditure. The SIM1 transgene also completely rescued the hyperphagia and partially rescued the obesity of agouti yellow mice, in which melanocortin signaling is abrogated. Our results indicate that the melanocortin 4 receptor signals through Sim1 or its transcriptional targets in controlling food intake but not energy expenditure.

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CTRP9 transgenic mice are protected from diet-induced obesity and metabolic dysfunction

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.00110.2013 ◽

2013 ◽

Vol 305 (5) ◽

pp. R522-R533 ◽

Cited By ~ 70

Author(s):

Jonathan M. Peterson ◽

Zhikui Wei ◽

Marcus M. Seldin ◽

Mardi S. Byerly ◽

Susan Aja ◽

...

Keyword(s):

Skeletal Muscle ◽

Adipose Tissue ◽

Transgenic Mice ◽

High Fat Diet ◽

Fat Oxidation ◽

Acid Oxidation ◽

Ampk Activation ◽

High Fat ◽

Diet Induced Obesity

CTRP9 is a secreted multimeric protein of the C1q family and the closest paralog of the insulin-sensitizing adipokine, adiponectin. The metabolic function of this adipose tissue-derived plasma protein remains largely unknown. Here, we show that the circulating levels of CTRP9 are downregulated in diet-induced obese mice and upregulated upon refeeding. Overexpressing CTRP9 resulted in lean mice that dramatically resisted weight gain induced by a high-fat diet, largely through decreased food intake and increased basal metabolism. Enhanced fat oxidation in CTRP9 transgenic mice resulted from increases in skeletal muscle mitochondrial content, expression of enzymes involved in fatty acid oxidation (LCAD and MCAD), and chronic AMPK activation. Hepatic and skeletal muscle triglyceride levels were substantially decreased in transgenic mice. Consequently, CTRP9 transgenic mice had a greatly improved metabolic profile with markedly reduced fasting insulin and glucose levels. The high-fat diet-induced obesity, insulin resistance, and hepatic steatosis observed in wild-type mice were prevented in transgenic mice. Consistent with the in vivo data, recombinant protein significantly enhanced fat oxidation in L6 myotubes via AMPK activation and reduced lipid accumulation in H4IIE hepatocytes. Collectively, these data establish CTRP9 as a novel metabolic regulator and a new component of the metabolic network that links adipose tissue to lipid metabolism in skeletal muscle and liver.

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Glucose intolerance in human IAPP transgenic mice on high-fat diet is independent of islet amyloid

Diabetes Research and Clinical Practice ◽

10.1016/s0168-8227(00)82225-1 ◽

2000 ◽

Vol 50 ◽

pp. 225

Author(s):

B Ahrén ◽

C Oosterwijk ◽

M.G Nieuwenhuis ◽

J.H.H Thijssen ◽

C.J.M Lips ◽

...

Keyword(s):

Transgenic Mice ◽

Glucose Intolerance ◽

High Fat Diet ◽

High Fat ◽

Islet Amyloid

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P3-123: Evaluation of the etiology and progression of Alzheimer's disease utilizing transgenic mice fed a high fat diet

Alzheimer s & Dementia ◽

10.1016/j.jalz.2012.05.1343 ◽

2012 ◽

Vol 8 (4S_Part_13) ◽

pp. P495-P495

Author(s):

Bruno Herculano ◽

Minami Tamura ◽

Ayaka Ohba ◽

Mayu Shimatani ◽

Natsumaro Kutsuna ◽

...

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Transgenic Mice ◽

High Fat Diet ◽

High Fat

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Transgenic mice expressing high levels of human apolipoprotein B develop severe atherosclerotic lesions in response to a high-fat diet.

Journal of Clinical Investigation ◽

10.1172/jci117915 ◽

1995 ◽

Vol 95 (5) ◽

pp. 2246-2257 ◽

Cited By ~ 125

Author(s):

D A Purcell-Huynh ◽

R V Farese ◽

D F Johnson ◽

L M Flynn ◽

V Pierotti ◽

...

Keyword(s):

Transgenic Mice ◽

Apolipoprotein B ◽

High Fat Diet ◽

High Fat ◽

Human Apolipoprotein ◽

Atherosclerotic Lesions

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Studies of UCP2 transgenic and knockout mice reveal that liver UCP2 is not essential for the antiobesity effects of fish oil

AJP Endocrinology and Metabolism ◽

10.1152/ajpendo.00551.2007 ◽

2008 ◽

Vol 294 (3) ◽

pp. E600-E606 ◽

Cited By ~ 10

Author(s):

Nobuyo Tsuboyama-Kasaoka ◽

Kayo Sano ◽

Chikako Shozawa ◽

Toshimasa Osaka ◽

Osamu Ezaki

Keyword(s):

Transgenic Mice ◽

Fish Oil ◽

Knockout Mice ◽

High Fat Diet ◽

Uncoupling Protein ◽

Dietary Fats ◽

Similar Degree ◽

Safflower Oil ◽

Wild Type ◽

High Fat

Uncoupling protein 2 (UCP2) is a possible target molecule for energy dissipation. Many dietary fats, including safflower oil and lard, induce obesity in C57BL/6 mice, whereas fish oil does not. Fish oil increases UCP2 expression in hepatocytes and may enhance UCP2 activity by activating the UCP2 molecule or altering the lipid bilayer environment. To examine the role of liver UCP2 in obesity, we created transgenic mice that overexpressed human UCP2 in hepatocytes and examined whether UCP2 transgenic mice showed less obesity when fed a high-fat diet (safflower oil or lard). In addition, we examined whether fish oil had antiobesity effects in UCP2 knockout mice. UCP2 transgenic and wild-type mice fed a high-fat diet (safflower oil or lard) developed obesity to a similar degree. UCP2 knockout and wild-type mice fed fish oil had lower rates of obesity than mice fed safflower oil. Remarkably, safflower oil did not induce obesity in female UCP2 knockout mice, an unexpected phenotype for which we presently have no explanation. However, this unexpected effect was not observed in male UCP2 knockout mice or in UCP2 knockout mice fed a high-lard diet. These data indicate that liver UCP2 is not essential for fish oil-induced decreases in body fat.

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