Prasanth Chelikani scite author profile

Peptide YY (3-36) [PYY (3-36)] is postulated to act as a hormonal signal from the gut to the brain to inhibit food intake and gastric emptying. A mixed-nutrient meal produces a prolonged 2-3 h increase in plasma levels of both PYY (3-36) and PYY (1-36). We determined the dose-dependent effects of 3-h iv infusions of PYY (3-36) and PYY (1-36) (0.5-50 pmol.kg(-1).min(-1)) at dark onset on food intake in non-food-deprived rats. PYY (3-36) dose-dependently inhibited food intake: the minimal effective dose was 5 pmol.kg(-1).min(-1); the estimated potency (mean effective dose) and efficacy (maximal percent inhibition) were 15 pmol.kg(-1).min(-1) (2.6 nmol/kg) and 47%, respectively. PYY (1-36) was an order of magnitude less potent than PYY (3-36). Similar total doses of PYY (3-36) (0.9-30 nmol/kg) infused during the 15-min period just before dark onset also dose-dependently inhibited food intake, albeit with a lower potency and efficacy. Other experiments showed that PYY (3-36) inhibited food intake in sham-feeding rats and was more effective in reducing intake of a mixed-nutrient liquid diet than 15% aqueous sucrose. We conclude that: 1) iv infusions of PYY (3-36), which are more likely than ip injections to mimic postprandial increases in plasma PYY (3-36), potently inhibit food intake in a dose-dependent manner; 2) PYY (1-36) is an order of magnitude less potent than PYY (3-36); and 3) PYY (3-36) can inhibit food intake independently of its action to inhibit gastric emptying. It remains to be determined whether iv doses of PYY (3-36) that reproduce postprandial increases in plasma PYY (3-36) are sufficient to inhibit food intake.

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Low protein diets produce divergent effects on energy balance

Pezeshki

Zapata

Singh

et al. 2016

Sci Rep

102

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Diets deficient in protein often increase food consumption, body weight and fat mass; however, the underlying mechanisms remain poorly understood. We compared the effects of diets varying in protein concentrations on energy balance in obesity-prone rats. We demonstrate that protein-free (0% protein calories) diets decreased energy intake and increased energy expenditure, very low protein (5% protein) diets increased energy intake and expenditure, whereas moderately low protein (10% protein) diets increased energy intake without altering expenditure, relative to control diet (15% protein). These diet-induced alterations in energy expenditure are in part mediated through enhanced serotonergic and β-adrenergic signaling coupled with upregulation of key thermogenic markers in brown fat and skeletal muscle. The protein-free and very low protein diets decreased plasma concentrations of multiple essential amino acids, anorexigenic and metabolic hormones, but these diets increased the tissue expression and plasma concentrations of fibroblast growth factor-21. Protein-free and very low protein diets induced fatty liver, reduced energy digestibility, and decreased lean mass and body weight that persisted beyond the restriction period. In contrast, moderately low protein diets promoted gain in body weight and adiposity following the period of protein restriction. Together, our findings demonstrate that low protein diets produce divergent effects on energy balance.

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Intravenous infusion of glucagon-like peptide-1 potently inhibits food intake, sham feeding, and gastric emptying in rats

Chelikani¹,

Haver²,

Reidelberger³

2005

American Journal of Physiology-Regulatory, Integrative and Comp

118

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Glucagon-like peptide-1(7-36)-amide (GLP-1) is postulated to act as a hormonal signal from gut to brain to inhibit food intake and gastric emptying. A mixed-nutrient meal produces a 2 to 3-h increase in plasma GLP-1. We determined the effects of intravenous infusions of GLP-1 on food intake, sham feeding, and gastric emptying in rats to assess whether GLP-1 inhibits food intake, in part, by slowing gastric emptying. A 3-h intravenous infusion of GLP-1 (0.5-170 pmol.kg(-1).min(-1)) at dark onset dose-dependently inhibited food intake in rats that were normally fed with a potency (mean effective dose) and efficacy (maximal % inhibition) of 23 pmol.kg(-1).min(-1) and 82%, respectively. Similar total doses of GLP-1 administered over a 15-min period were less potent and effective. In gastric emptying experiments, GLP-1 (1.7-50 pmol.kg(-1).min(-1)) dose-dependently inhibited gastric emptying of saline and ingested chow with potencies of 18 and 6 pmol.kg(-1).min(-1) and maximal inhibitions of 74 and 83%, respectively. In sham-feeding experiments, GLP-1 (5-50 pmol.kg(-1).min(-1)) dose-dependently reduced 15% aqueous sucrose intake in a similar manner when gastric cannulas were closed (real feeding) and open (sham feeding). These results demonstrate that intravenous infusions of GLP-1 dose-dependently inhibit food intake, sham feeding, and gastric emptying with a similar potency and efficacy. Thus GLP-1 may inhibit food intake in part by reducing gastric emptying, yet can also inhibit food intake independently of its action to reduce gastric emptying. It remains to be determined whether intravenous doses of GLP-1 that reproduce postprandial increases in plasma GLP-1 are sufficient to inhibit food intake and gastric emptying.

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The influence of nutrients, biliary-pancreatic secretions, and systemic trophic hormones on intestinal adaptation in a Roux-en-Y bypass model

Taqi

Wallace

Heuvel

et al. 2010

Journal of Pediatric Surgery

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Dietary Whey and Casein Differentially Affect Energy Balance, Gut Hormones, Glucose Metabolism, and Taste Preference in Diet-Induced Obese Rats

Pezeshki

Fahim

Chelikani

2015

The Journal of Nutrition

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