2019
DOI: 10.3390/nu11061197
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Evaluating the Impact of Different Hypercaloric Diets on Weight Gain, Insulin Resistance, Glucose Intolerance, and its Comorbidities in Rats

Abstract: Animal experimentation has a long history in the study of metabolic syndrome-related disorders. However, no consensus exists on the best models to study these syndromes. Knowing that different diets can precipitate different metabolic disease phenotypes, herein we characterized several hypercaloric rat models of obesity and type 2 diabetes, comparing each with a genetic model, with the aim of identifying the most appropriate model of metabolic disease. The effect of hypercaloric diets (high fat (HF), high sucr… Show more

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Cited by 24 publications
(21 citation statements)
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“…Surprisingly, chronic A 2A blockade, increased total fat in female, while decreased total fat mass in male, which contrasts with the lack of effects of the deletion of A 2A receptors in mice in body weight (46). As previously described, 4 weeks of HSu diet were unable to promote significant changes in weight gain (8,47), being this effect also observed with the blockade of the adenosine receptors. However, even without any change in weight gain, chronic blockade of A 1 receptors in HSu female animals decreased total fat mass, which was associated with a decrease in perienteric, genital, and perinephric fat mass, suggesting a redistribution of fat depots or an altered ratio lean/fat mass.…”
Section: Role Of Adenosine Receptors In Weight Fat Deposition and Mmentioning
confidence: 58%
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“…Surprisingly, chronic A 2A blockade, increased total fat in female, while decreased total fat mass in male, which contrasts with the lack of effects of the deletion of A 2A receptors in mice in body weight (46). As previously described, 4 weeks of HSu diet were unable to promote significant changes in weight gain (8,47), being this effect also observed with the blockade of the adenosine receptors. However, even without any change in weight gain, chronic blockade of A 1 receptors in HSu female animals decreased total fat mass, which was associated with a decrease in perienteric, genital, and perinephric fat mass, suggesting a redistribution of fat depots or an altered ratio lean/fat mass.…”
Section: Role Of Adenosine Receptors In Weight Fat Deposition and Mmentioning
confidence: 58%
“…Also, in an obese mice model with insulin resistance induced by 16 weeks of high-fat diet, the expression of A 2B adenosine receptor is increased in the liver, visceral fat, and gastrocnemius muscle (54). Based on this, we can postulate that the differences in the expression of adenosine receptors might be related with differences in the animal models studied, the HSu model studied in the present work is a lean model of insulin resistance (8,47), or with the degree of insulin resistance and disease progression, as herein we used a 4 weeks model of diet and Johnston-Cox et al (54) submitted the animals to 16 weeks of high-fat diet. Therefore, different metabolic disturbances and different stages of disease progression might contribute differently to the expression of adenosine receptor in the insulin sensitive tissues.…”
Section: Effect Of Hypercaloric Hsu Diet On Insulin Sensitivity and Amentioning
confidence: 65%
“…The mechanism by which obesity increased blood pressure is not completely understood, but among other factors, endothelial dysfunction and insulin resistance seem to be involved in the development of hypertension in MS. Many authors believe that insulin resistance itself or the resulting hyperinsulinaemia (a compensatory response to insulin resistance) is responsible for increased retention of sodium and water reabsorption by the kidneys, accelerating the renal damage and activating the sympathetic nervous system . Several studies have investigated the impact of high‐fat or high‐carbohydrate diets on blood pressure and baroreflex .…”
Section: Discussionmentioning
confidence: 99%
“…In 2016, more than 1.9 billion adults were overweight and, from these, more than 650 million were obese. If recent trends continue unabated, up to 20% of the world's adult population (1.2 billion individuals) is expected to be obese by 2030 [7,8]. Persistent obesity dysregulates metabolic processes, including action of insulin on glucose-lipid-free fatty acid metabolism, and severely affects processes controlling blood glucose, blood pressure and lipids.…”
Section: Introductionmentioning
confidence: 99%