G Paulino1, N Darcel, D Tome, H Raybould. 1. Department Anatomy, Physiology and Cell Biology, UC Davis School of Veterinary Medicine, CA, USA.
Abstract
UNLABELLED: Food intake is modulated by ingestive (gastrointestinal) and post-ingestive signals; ingested fat is potent to produce short-term satiety (satiation) but this can be modified by long-term ingestion of a high fat diet. AIM: Determine whether altered lipid-induced satiation is dependent on the fat content of the diet, rather than increased caloric density or changes in adiposity. METHODS: Initial experiments determined the differences in the microstructure of meal patterns in rats fed a high fat diet (HF: 38% fat kcal) and in rats pair-fed an isocaloric, isonitrogenous low fat diet (LF: 10% fat kcal) and changes in meal patterns measured after long-term maintenance on the HF diet. RESULTS: Rats fed the HF diet had a significant 50% increase in meal frequency compared to rats fed the LF diet; in addition, there was a significant reduction in meal size (32%) and inter meal interval (38%) consistent with induction of satiation. After 8 weeks on the HF diet, these parameters tend to approach those of rats maintained on the LF diet. There was a significant 56% decrease in the activation of neurons in the NTS in response to intragastric gavage of lipid in rats maintained for 8 weeks on the HF compared to LF diet. CONCLUSION: Dietary fat alters meal patterns consistent with induction of a short-term satiety signal. This signal is attenuated with long-term exposure to dietary lipid, in the absence of ingestion of additional calories or changes in body weight. This adaptation of short-term satiety might contribute to diet-induced obesity.
UNLABELLED: Food intake is modulated by ingestive (gastrointestinal) and post-ingestive signals; ingested fat is potent to produce short-term satiety (satiation) but this can be modified by long-term ingestion of a high fat diet. AIM: Determine whether altered lipid-induced satiation is dependent on the fat content of the diet, rather than increased caloric density or changes in adiposity. METHODS: Initial experiments determined the differences in the microstructure of meal patterns in rats fed a high fat diet (HF: 38% fat kcal) and in rats pair-fed an isocaloric, isonitrogenous low fat diet (LF: 10% fat kcal) and changes in meal patterns measured after long-term maintenance on the HF diet. RESULTS:Rats fed the HF diet had a significant 50% increase in meal frequency compared to rats fed the LF diet; in addition, there was a significant reduction in meal size (32%) and inter meal interval (38%) consistent with induction of satiation. After 8 weeks on the HF diet, these parameters tend to approach those of rats maintained on the LF diet. There was a significant 56% decrease in the activation of neurons in the NTS in response to intragastric gavage of lipid in rats maintained for 8 weeks on the HF compared to LF diet. CONCLUSION: Dietary fat alters meal patterns consistent with induction of a short-term satiety signal. This signal is attenuated with long-term exposure to dietary lipid, in the absence of ingestion of additional calories or changes in body weight. This adaptation of short-term satiety might contribute to diet-induced obesity.
Authors: K L Whited; D Thao; K C Kent Lloyd; A S Kopin; H E Raybould Journal: Am J Physiol Gastrointest Liver Physiol Date: 2006-03-30 Impact factor: 4.052
Authors: C W le Roux; R L Batterham; S J B Aylwin; M Patterson; C M Borg; K J Wynne; A Kent; R P Vincent; J Gardiner; M A Ghatei; S R Bloom Journal: Endocrinology Date: 2005-09-15 Impact factor: 4.736
Authors: Tanusree Sen; Carolina R Cawthon; Benjamin Thomas Ihde; Andras Hajnal; Patricia M DiLorenzo; Claire B de La Serre; Krzysztof Czaja Journal: Physiol Behav Date: 2017-02-27
Authors: Harry R Kissileff; John C Thornton; Migdalia I Torres; Katherine Pavlovich; Laurel S Mayer; Vamsi Kalari; Rudolph L Leibel; Michael Rosenbaum Journal: Am J Clin Nutr Date: 2012-01-11 Impact factor: 7.045
Authors: Alexandra C Vaughn; Erin M Cooper; Patricia M DiLorenzo; Levi J O'Loughlin; Michael E Konkel; James H Peters; Andras Hajnal; Tanusree Sen; Sun Hye Lee; Claire B de La Serre; Krzysztof Czaja Journal: Acta Neurobiol Exp (Wars) Date: 2017 Impact factor: 1.579
Authors: Susan J Melhorn; Eric G Krause; Karen A Scott; Marie R Mooney; Jeffrey D Johnson; Stephen C Woods; Randall R Sakai Journal: Physiol Behav Date: 2010-01-12
Authors: Gabriel Paulino; Claire Barbier de la Serre; Trina A Knotts; Pieter J Oort; John W Newman; Sean H Adams; Helen E Raybould Journal: Am J Physiol Endocrinol Metab Date: 2009-02-03 Impact factor: 4.310