BACKGROUND & AIMS: 5-Hydroxytryptamine (5-HT) is released from enterochromaffin cells and activates neural reflex programs regulating motility and secretion. Although sugars are reported to release 5-HT in vivo, it is unclear whether they act directly on enterochromaffin cells or indirectly through an intermediary messenger. The aim was to determine if D-glucose is a stimulus for 5-HT release. METHODS: Human BON cells, derived from enterochromaffin cells, were treated with D-glucose, galactose, and the nonmetabolizable methyl alpha-D-glucopyranoside, or with fructose. RESULTS: Reverse-transcription polymerase chain reaction together with Western blot analysis revealed an SGLT-like protein. D-glucose caused a concentration-dependent increase in 5-HT release, which was mimicked by methyl alpha-D-glucopyranoside and galactose but not fructose. D-glucose-stimulated 5-HT release was significantly reduced by phloridzin. Concentrations of mannitol below 75 mmol/L were ineffective in releasing 5-HT. Brefeldin A abolished forskolin-stimulated 5-HT release without affecting basal or constitutive release. CONCLUSIONS: The results show that high concentrations of metabolizable and nonmetabolizable hexoses activate signal transduction pathways, leading to release of 5-HT. These findings imply a role for enterochromaffin cells as "glucose sensors" during ingestion of a meal.
BACKGROUND & AIMS:5-Hydroxytryptamine (5-HT) is released from enterochromaffin cells and activates neural reflex programs regulating motility and secretion. Although sugars are reported to release 5-HT in vivo, it is unclear whether they act directly on enterochromaffin cells or indirectly through an intermediary messenger. The aim was to determine if D-glucose is a stimulus for 5-HT release. METHODS:Human BON cells, derived from enterochromaffin cells, were treated with D-glucose, galactose, and the nonmetabolizable methyl alpha-D-glucopyranoside, or with fructose. RESULTS: Reverse-transcription polymerase chain reaction together with Western blot analysis revealed an SGLT-like protein. D-glucose caused a concentration-dependent increase in 5-HT release, which was mimicked by methyl alpha-D-glucopyranoside and galactose but not fructose. D-glucose-stimulated 5-HT release was significantly reduced by phloridzin. Concentrations of mannitol below 75 mmol/L were ineffective in releasing 5-HT. Brefeldin A abolished forskolin-stimulated 5-HT release without affecting basal or constitutive release. CONCLUSIONS: The results show that high concentrations of metabolizable and nonmetabolizable hexoses activate signal transduction pathways, leading to release of 5-HT. These findings imply a role for enterochromaffin cells as "glucose sensors" during ingestion of a meal.
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