Alteration of gastric functions and candidate genes associated with weight reduction in response to sibutramine.

BACKGROUND & AIMS: It is unclear whether weight loss with the noradrenergic (norepinephrine) and serotonergic (5-hydroxytryptamine) reuptake inhibitor, sibutramine, is associated with altered stomach functions and whether genetics influence treatment response. METHODS: Forty-eight overweight and obese but otherwise healthy participants were randomized to placebo or sibutramine (15 mg/day for 12 weeks). At baseline and posttreatment we measured the following: gastric emptying for solids and liquids by scintigraphy, gastric volumes by single-photon emission computed tomography, maximum tolerated volume and 30-minute postnutrient challenge symptoms, and selected gastrointestinal hormones. All participants received structured behavior therapy for weight management. The influence of candidate gene polymorphisms involved in norepinephrine and 5-hydroxytryptamine or receptor function (phenylethanolamine N-methyltransferase, guanine nucleotide binding protein beta polypeptide 3, alpha2A adrenoreceptor, and solute carrier family 6 [neurotransmitter transporter, serotonin] member 4 [homo sapiens] [SLC6A4]) on weight loss and gastric functions was evaluated. RESULTS: The overall average weight loss posttreatment was 5.4 +/- 0.8 (SEM) kg with sibutramine and 0.9 +/- 0.9 kg with placebo (P < .001). The sibutramine group showed significant retardation in gastric emptying of solids (P = .03), reduced maximum tolerated volume (P = .03), and increased postprandial peptide YY compared with the placebo group. Obese females showed greater effects of sibutramine on weight loss and gastric emptying of solids and liquids. Gastric volumes and postchallenge symptoms were not significantly different in the 2 treatment groups. The LS/SS genotype of the promoter for SLC6A4 was associated with enhanced weight loss with sibutramine. CONCLUSIONS: Weight reduction with sibutramine is associated with altered gastric functions and increased peptide YY and is significantly associated with SLC6A4 genotype. The role of genetic variation in SLC6A4 on weight loss in response to sibutramine deserves further study.

Dose-response effect of a beta3-adrenergic receptor agonist, solabegron, on gastrointestinal transit, bowel function, and somatostatin levels in health.

beta(3)-Adrenoceptors(beta(3)-AR) are expressed by cholinergic myenteric neurons and beta(3)-AR agonists are effective in experimental models of diarrhea. Our aim was to explore the effects of a beta(3)-AR agonist, solabegron, on gastrointestinal transit, safety, bowel function, plasma somatostatin, and solabegron pharmacokinetics (PK) following single and multiple doses. In a single-center, double-blind, parallel-group trial, 36 healthy volunteers were randomized to oral solabegron (50 or 200 mg twice daily) or placebo. Transit was measured by a validated method ((99m)Tc-labeled egg meal and (111)In charcoal delivered to the colon via delayed-release capsule). Stool frequency, form, and ease of passage were measured on a validated daily diary; plasma somatostatin by radioimmunoassay and plasma solabegron and its active metabolite by validated liquid chromatography-tandem mass spectroscopy analysis followed by PK analysis using noncompartmental methods. There were no overall or dose-related effects of solabegron on gastric, small bowel, or colonic transit, plasma somatostatin levels, stool frequency, form, or ease of passage in healthy volunteers. Solabegron and active metabolite exposures (area under the curve and maximum serum concentration) at both dose levels were consistent with PK at similar doses in previous phase I studies. We concluded that 7 days of the beta(3)-AR agonist, solabegron, 50 or 200 mg twice daily, did not significantly alter gastrointestinal or colonic transit or bowel function. In this study, medication was generally well tolerated with few adverse events reported and no clinically significant changes in vital signs observed. Further studies on clinical efficacy, visceral sensitivity, and gastrointestinal transit are required in irritable bowel syndrome patients.

Gastric sensorimotor functions and hormone profile in normal weight, overweight, and obese people.

BACKGROUND & AIMS: Peptide YY (PYY) levels are reported to be decreased in obesity. The relation between gastric functions, satiation, and gut hormones in obesity is incompletely understood. The aim of this study was to compare gastric volumes, emptying, maximum tolerated volumes, postchallenge symptoms, and selected gut hormones in normal, overweight, or obese healthy volunteers. METHODS: In 73 nonbulimic normal, overweight, or obese participants weighing less than 137 kg, we measured gastric emptying of solids and liquids by scintigraphy (gastric emptying half-time [GE t(1/2)]); gastric volumes by single-photon emission computed tomography; maximum tolerated volumes and symptoms by satiation test; and plasma leptin, ghrelin, insulin, glucagon-like peptide 1, and PYY levels. Groups were compared using 1-way analysis of covariance adjusted for sex. Univariate associations among measured responses were assessed using Spearman correlations. Multiple linear regression models, adjusting for weight and sex, assessed the independent ability of gastric functions and hormones to predict satiation volume. RESULTS: Obese and overweight subjects had significantly lower postprandial gastric volumes, higher fasting and postprandial insulin and leptin levels, and lower fasting ghrelin and lower postprandial reduction in ghrelin levels. PYY levels were not different in obese or overweight subjects compared with controls. The GE t(1/2) was correlated inversely with postprandial PYY; increased body weight was associated with faster GE t(1/2) of solids (r(s) = 0.33, P = .005) and liquids (r(s) = 0.24, P = .04). Postprandial changes in gastric volume and PYY were independent predictors of satiation (both P = .01). CONCLUSIONS: Overweight or obesity are associated with lower postprandial gastric volumes and normal PYY levels. Gastric emptying influences postprandial PYY levels. Postprandial PYY and gastric volume independently predict satiation volume in nonbulimic people across a wide body mass index range.