Alfred C. K. Wong scite author profile

To determine whether peptide YY (PYY), ghrelin, glucose-dependent insulinotropic polypeptide (GIP), and satiety responses to food intake are impaired in anorexia or obesity, we studied 30 female adolescents with anorexia nervosa [body mass index (BMI) 16.3 kg/m2], obesity (BMI 34.3 kg/m2), or normal weight (BMI 20.2 kg/m2). PYY, ghrelin, GIP, insulin, and glucose concentrations and four markers of satiety were measured for 240 min after a mixed meal. The area under the curve for glucose was similar in obese (OB) and normal-weight control (C) subjects but was 15% lower in anorexic (AN) subjects. The area under the curve for insulin was 47% lower in AN and 87% higher in OB subjects, compared with C subjects. After the meal, PYY increased significantly in C (+41%, P < 0.05) but not in AN or OB adolescents. Ghrelin concentrations were highest in AN subjects and lowest in the OB group, compared with C subjects and fell significantly by 25% in all three groups. GIP concentrations were lower in AN subjects throughout the test and increased in all three groups after the mixed meal. AN adolescents reported being less hungry than OB and C adolescents. There was a negative correlation between fasting ghrelin (but not PYY or GIP) and BMI and insulin (r2= 0.33) and a positive correlation between the decrease in hunger 15 min after the meal and PYY concentrations at 15 min (r2= 0.20). In conclusion, the blunted PYY response to a meal in OB adolescents suggests that PYY plays a role in the pathophysiology of obesity. Ghrelin is unlikely to play a causal role in anorexia nervosa or obesity. The lower GIP observed in AN subjects despite a similar caloric intake may appropriately prevent an excessive insulin response in these patients.

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Elevated Umbilical Cord Ghrelin Concentrations in Small for Gestational Age Neonates

Farquhar

Heiman

Wong

et al. 2003

101

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Ghrelin has orexigenic effects. It is present in umbilical cord plasma in full-term neonates, raising the prospect that ghrelin plays a role in fetal and neonatal energy balance. We measured ghrelin in small (SGA), appropriate (AGA), and large (LGA) for gestational age neonates and evaluated whether ghrelin levels are modulated by neonatal insulin and glucose concentrations. Plasma concentrations of ghrelin, insulin, and glucose were measured in cord blood sampled at birth in 123 SGA, AGA, and LGA neonates (gestational age, 24-41 wk) born to mothers with and without diabetes. Ghrelin was detected in samples from all infants. Its concentration was 40% higher in SGA neonates (mean +/- SD, 2436 +/- 657 pg/ml) compared with AGA (1738 +/- 380) and LGA (1723 +/- 269) neonates. There was a positive correlation between ghrelin and gestational age in AGA/LGA (r = 0.23; P < 0.05) and a negative correlation in SGA (r = -0.67; P < 0.005) neonates. Therefore, the difference in ghrelin between SGA and AGA/LGA neonates decreases with advancing gestational age. Birth weight z-score, maternal hypertension, and glucose concentrations were significant determinants of ghrelin concentrations. In conclusion, SGA neonates present with higher umbilical cord ghrelin plasma concentrations than AGA/LGA neonates. Ghrelin may play a physiological role in fetal adaptation to intrauterine malnutrition.

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Regulation of Appetite in Lean and Obese Adolescents after Exercise: Role of Acylated and Desacyl Ghrelin

et al. 2006

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Ghrelin Gene Expression Is Markedly Higher in Fetal Pancreas Compared with Fetal Stomach: Effect of Maternal Fasting

Chanoine

Wong

2004

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Ghrelin is an orexigenic peptide secreted mainly by the stomach in adult rats. Ghrelin concentrations increase with fasting and decrease after food intake. Ghrelin is also present in the placenta and in the fetal stomach, but the role of fetal ghrelin remains unclear. In this study, we compared changes in plasma ghrelin, insulin, and glucose concentrations and in ghrelin gene expression in stomach, pancreas, and placenta in response to fasting and feeding in adult nonpregnant rats and in 20-d pregnant dams and their fetuses. Plasma total ghrelin concentrations were three times higher in the fetus than in the dam but did not increase in response to fasting. In contrast to total ghrelin, plasma active ghrelin concentrations wee 50% lower in the fetus compared with the adult pregnant rat. Ghrelin mRNA and total ghrelin were markedly elevated in the fetal pancreas and six to seven times greater than in the fetal stomach but were not affected by fasting. In contrast, fetal pancreas and stomach active ghrelin concentrations increased two to three times after maternal fasting. Ghrelin receptor mRNA was present in all fetal pancreas samples. Placenta ghrelin gene expression was detectable but low. These data raise the possibility that in the fetus, in contrast to the adult, the pancreas and not the stomach is a major source of circulating immunoreactive ghrelin. Furthermore, the presence of a strong ghrelin gene expression and of ghrelin receptor mRNA in the fetal pancreas is intriguing and suggests that ghrelin may play an important role in beta-cell development.

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Alfred C. K. Wong

Ghrelin, Peptide YY, Glucose-Dependent Insulinotropic Polypeptide, and Hunger Responses to a Mixed Meal in Anorexic, Obese, and Control Female Adolescents

Elevated Umbilical Cord Ghrelin Concentrations in Small for Gestational Age Neonates

Regulation of Appetite in Lean and Obese Adolescents after Exercise: Role of Acylated and Desacyl Ghrelin

Ghrelin Gene Expression Is Markedly Higher in Fetal Pancreas Compared with Fetal Stomach: Effect of Maternal Fasting

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