Caffeine Induces Gastric Acid Secretion Via Bitter Taste Signaling in Gastric Parietal Cells

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2017 Jul 12

PMID 28696284

Citations 42

Authors

Kathrin Ingrid Liszt

Jakob Peter Ley

Barbara Lieder

Maik Behrens

Verena Stoger

Angelika Reiner

Christina Maria Hochkogler

Elke Kock

Alessandro Marchiori

Joachim Hans

Sabine Widder

Gerhard Krammer

Gareth John Sanger

Mark Manuel Somoza

Wolfgang Meyerhof

Veronika Somoza

Affiliations

Soon will be listed here.

Abstract

Caffeine, generally known as a stimulant of gastric acid secretion (GAS), is a bitter-tasting compound that activates several taste type 2 bitter receptors (TAS2Rs). TAS2Rs are expressed in the mouth and in several extraoral sites, e.g., in the gastrointestinal tract, in which their functional role still needs to be clarified. We hypothesized that caffeine evokes effects on GAS by activation of oral and gastric TAS2Rs and demonstrate that caffeine, when administered encapsulated, stimulates GAS, whereas oral administration of a caffeine solution delays GAS in healthy human subjects. Correlation analysis of data obtained from ingestion of the caffeine solution revealed an association between the magnitude of the GAS response and the perceived bitterness, suggesting a functional role of oral TAS2Rs in GAS. Expression of TAS2Rs, including cognate TAS2Rs for caffeine, was shown in human gastric epithelial cells of the corpus/fundus and in HGT-1 cells, a model for the study of GAS. In HGT-1 cells, various bitter compounds as well as caffeine stimulated proton secretion, whereby the caffeine-evoked effect was () shown to depend on one of its cognate receptor, and adenylyl cyclase; and () reduced by homoeriodictyol (HED), a known inhibitor of caffeine's bitter taste. This inhibitory effect of HED on caffeine-induced GAS was verified in healthy human subjects. These findings () demonstrate that bitter taste receptors in the stomach and the oral cavity are involved in the regulation of GAS and () suggest that bitter tastants and bitter-masking compounds could be potentially useful therapeutics to regulate gastric pH.

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