Leptin amplifies the feeding inhibition and neural activation arising from a gastric nutrient preload

M Emond, EE Ladenheim, GJ Schwartz, TH Moran - Physiology & behavior, 2001 - Elsevier
M Emond, EE Ladenheim, GJ Schwartz, TH Moran
Physiology & behavior, 2001Elsevier
Leptin affects food intake by reducing meal size, suggesting that it may modulate the efficacy
of within-meal satiety signals. To assess whether leptin would amplify the feeding inhibitory
actions of a nutrient gastric preload, we compared liquid diet food intake and patterns of c-
Fos activation in response to intraventricular leptin (3.5 μg), intragastric Ensure (10 ml over
10 min), or their combination. Leptin alone did not affect Ensure intake but significantly
increased the suppression of intake produced by the intragastric preload. Within the nucleus …
Leptin affects food intake by reducing meal size, suggesting that it may modulate the efficacy of within-meal satiety signals. To assess whether leptin would amplify the feeding inhibitory actions of a nutrient gastric preload, we compared liquid diet food intake and patterns of c-Fos activation in response to intraventricular leptin (3.5 μg), intragastric Ensure (10 ml over 10 min), or their combination. Leptin alone did not affect Ensure intake but significantly increased the suppression of intake produced by the intragastric preload. Within the nucleus of the solitary tract (NTS), leptin alone did not stimulate c-Fos but significantly elevated the number of c-Fos positive cells in response to intragastric Ensure at medial and rostral levels. Within the paraventricular nucleus (PVN), both leptin and the gastric load stimulated c-Fos expression, but the combination resulted in significantly greater number of c-Fos positive cells. These data demonstrate that leptin modulates the feeding inhibition produced by meal-related signals and suggest that this modulation occurs at the levels of the NTS and PVN.
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