High-fat Diet-induced Ultradian Leptin and Insulin Hypersecretion are Absent in Obesity-resistant Rats

• Published in: Obesity (Silver Spring, Md.) Vol. 13; no. 6; pp. 991 - 999
• Main Authors: Otukonyong, Effiong E, Dube, Michael G, Torto, Rita, Kalra, Pushpa S, Kalra, Satya P
• Format: Journal Article Conference Proceeding
• Language: English
• Published: Oxford, UK Blackwell Publishing Ltd 01.06.2005
• Subjects: animal disease models; Animals; Body Weight - physiology; Circadian Rhythm - physiology; Cluster Analysis; Dietary Fats - administration & dosage; Eating - physiology; Feedback - physiology; Female; Ghrelin; high fat diet; hormone metabolism; hyperghrelinemia; hyperinsulinemia; hyperleptinemia; hypoghrelinemia; Insulin - blood; Insulin - metabolism; Insulin Secretion; leptin; Leptin - blood; Leptin - metabolism; metabolic syndrome; obesity; Obesity - blood; obesity resistant; Peptide Hormones - blood; Peptide Hormones - metabolism; Periodicity; Rats; Rats, Sprague-Dawley; Statistics, Nonparametric; ultradian secretion
• ISSN: 1071-7323; 1930-7381; 1550-8528; 1930-739X
• DOI: 10.1038/oby.2005.116

OBJECTIVE: Sprague-Dawley rats fed a high-fat diet (HFD) are either obesity prone (OP) or obesity resistant (OR). We tested the hypothesis that differences in the ultradian rhythmic patterns of insulin and ghrelin in OP vs. OR rats promote obesity in OP rats. RESEARCH METHODS AND PROCEDURES: Rats were fed regular chow or an HFD, and ultradian fluctuations in leptin, insulin, and ghrelin were analyzed in blood samples collected at 5-minute intervals from intrajugular cannulae of freely moving rats. RESULTS: Regular chow feeding resulted in a slow weight gain accompanied by small increases in insulin and leptin and a decrease in ghrelin discharge, with only the pulse amplitude significantly altered. Similar changes were observed in OR rats, despite HFD consumption. In contrast, OP rats exhibited a high rate of weight gain and marked hyperinsulinemia, hyperleptinemia, and hypoghrelinemia; amplitude was altered, but frequency was stable. In a short-term experiment, HFD elicited similar secretory patterns of smaller magnitude even in the absence of weight gain. DISCUSSION: We showed that three hormonal signals of disparate origin involved in energy homeostasis were secreted in discrete episodes, and only the pulse amplitude component was vulnerable to age and HFD consumption. Increases in insulin and leptin and decreases in ghrelin pulse amplitude caused by HFD were exaggerated in OP rats relative to OR rats and preceded the weight increase. These findings show that a distinct genetic predisposition in the endocrine organs of OR rats confers protection against high-fat intake-induced ultradian hypersecretion of obesity-promoting hormonal signals.