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14.05.2024 09:47

Bitter Makes the Stomach Acidic, but How? / How Bitter Food Constituents Influence Gastric Acid Production

Dr. Gisela Olias Presse- und Öffentlichkeitsarbeit
Leibniz-Institut für Lebensmittel-Systembiologie

In the stomach, so-called parietal cells are responsible for acid production. They react not only to the body's own messenger molecules, but also to bitter-tasting food constituents such as caffeine. A research team from the Leibniz Institute for Food Systems Biology at the Technical University of Munich has now carried out a study on a human gastric cell line. Their results help to clarify the molecular regulatory mechanisms by which bitter substances influence gastric acid production.

It is known that taste receptors for bitter substances are not only found on the tongue, but also on the surface of other tissues and cells. These include the parietal cells of the stomach, which secrete protons into the stomach - i.e. produce gastric acid. Recent studies have already shown that the bitter taste receptors found in parietal cells are involved in the regulation of gastric acid release. However, the underlying molecular signaling pathways are not yet fully understood.

Gastric cells as a test system

To further clarify the molecular interaction between bitter substances, bitter taste receptors, and gastric acid production, a research team led by Veronika Somoza, Director of the Leibniz Institute in Freising, has carried out a study on a cellular test system. This involves human parietal HGT-1 cells, which are able to secrete protons and, like taste cells, have bitter taste receptors.

Veronika Somoza's team initially developed a working hypothesis based on the results of previous studies and the findings on signal transduction pathways in taste cells. According to this hypothesis, bitter tasting food constituents stimulate bitter taste receptors that are embedded in the cell membrane. This releases calcium ions inside the cells, leading to ion channel opening. This, in turn, allows sodium ions to flow into the gastric cells from the outside, ultimately contributing to the release of protons.

Hypothesis confirmed

First author Phil Richter explains: "We have successfully tested this mechanism with the two bitter substances caffeine and l-arginine. As expected from previous results, both food constituents were shown to stimulate gastric cell proton secretion in our test system." The PhD student adds: "For the first time, we were able to demonstrate that the transient receptor potential channelsM4 and M5 are involved in the signaling cascade not only in taste cells but also in gastric cells and ensure an influx of sodium ions into the cells."

Senior Scientist Gaby Andersen says: "By using knock-out experiments, in which we specifically switched off one type of bitter taste receptor in the cells, we were also able to show for the first time that there is a link between bitter taste receptors and the activation of the ion channels." The scientist emphasizes that the results not only contribute to a better understanding of the role of taste receptors in the stomach but would also show that HGT-1 cells could be suitable as a replacement model for taste cells.

The research team agrees that the results will provide new insights into the regulation of gastric acid production and thus lead to innovative approaches in treating gastric diseases in the long term. However, further studies are needed to deepen knowledge of the molecular regulatory mechanisms and intracellular signaling pathways.

Publication: Richter, P., Andersen, G., Kahlenberg, K., Mueller, A.U., Pirkwieser, P., Boger, V., and Somoza, V. (2024). Sodium-Permeable Ion Channels TRPM4 and TRPM5 are Functional in Human Gastric Parietal Cells in Culture and Modulate the Cellular Response to Bitter-Tasting Food Constituents. J Agric Food Chem. 10.1021/acs.jafc.3c09085.
https://doi.org/10.1021/acs.jafc.3c09085



Contacts:

Scientific Contact:

Prof. Dr. Veronika Somoza
Director of the Leibniz Institute for Food Systems Biology
at the Technical University of Munich (Leibniz-LSB@TUM)
Head of the Research Group Metabolic Function & Biosignals
Lise-Meitner-Str. 34
85354 Freising
E-mail: v.somoza.leibniz-lsb@tum.de

Dr. Gaby Andersen
Research Group Metabolic Function & Biosignals at the Leibniz-LSB@TUM
Phone: +49 8161 71-2930
E-mail: g.andersen.leibniz-lsb@tum.de

Phil Richter
Research Group Metabolic Function & Biosignals at the Leibniz-LSB@TUM
Phone: +49 8161 71-2727
E-mail: p.richter.leibniz-lsb@tum.de

Press Contact at the Leibniz-LSB@TUM:

Dr. Gisela Olias
Knowledge Transfer, Press and Public Relations
Phone: +49 8161 71-2980
E-mail: g.olias.leibniz-lsb@tum.de
https://www.leibniz-lsb.de


Information About the Institute:

The Leibniz Institute for Food Systems Biology at the Technical University of Munich (Leibniz-LSB@TUM) comprises a new, unique research profile at the interface of Food Chemistry & Biology, Chemosensors & Technology, and Bioinformatics & Machine Learning. As this profile has grown far beyond the previous core discipline of classical food chemistry, the institute spearheads the development of a food systems biology. Its aim is to develop new approaches for the sustainable production of sufficient quantities of food whose biologically active effector molecule profiles are geared to health and nutritional needs, but also to the sensory preferences of consumers. To do so, the institute explores the complex networks of sensorically relevant effector molecules along the entire food production chain with a focus on making their effects systemically understandable and predictable in the long term.

The Leibniz-LSB@TUM is a member of the Leibniz Association, which connects 97 independent research institutions. Their orientation ranges from the natural sciences, engineering and environmental sciences through economics, spatial and social sciences to the humanities. Leibniz Institutes devote themselves to social, economic and ecological issues. They conduct knowledge-oriented and application-oriented research, also in the overlapping Leibniz research networks, are or maintain scientific infrastructures and offer research-based services. The Leibniz Association focuses on knowledge transfer, especially with the Leibniz Research Museums. It advises and informs politics, science, business and the public. Leibniz institutions maintain close cooperation with universities - among others, in the form of the Leibniz Science Campuses, industry and other partners in Germany and abroad. They are subject to a transparent and independent review process. Due to their national significance, the federal government and the federal states jointly fund the institutes of the Leibniz Association. The Leibniz Institutes employ around 21,000 people, including almost 12,000 scientists. The entire budget of all the institutes is more than two billion euros.

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Wissenschaftliche Ansprechpartner:

Prof. Dr. Veronika Somoza
Director of the Leibniz Institute for Food Systems Biology
at the Technical University of Munich (Leibniz-LSB@TUM)
Head of the Research Group Metabolic Function & Biosignals
Lise-Meitner-Str. 34
85354 Freising
E-mail: v.somoza.leibniz-lsb@tum.de

Dr. Gaby Andersen
Research Group Metabolic Function & Biosignals at the Leibniz-LSB@TUM
Phone: +49 8161 71-2930
E-mail: g.andersen.leibniz-lsb@tum.de

Phil Richter
Research Group Metabolic Function & Biosignals at the Leibniz-LSB@TUM
Phone: +49 8161 71-2727
E-mail: p.richter.leibniz-lsb@tum.de

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Originalpublikation:

Richter, P., Andersen, G., Kahlenberg, K., Mueller, A.U., Pirkwieser, P., Boger, V., and Somoza, V. (2024). Sodium-Permeable Ion Channels TRPM4 and TRPM5 are Functional in Human Gastric Parietal Cells in Culture and Modulate the Cellular Response to Bitter-Tasting Food Constituents. J Agric Food Chem. 10.1021/acs.jafc.3c09085.
https://doi.org/10.1021/acs.jafc.3c09085

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Weitere Informationen:

https://www.leibniz-lsb.de/en/press-public-relations/translate-to-englisch-press... Additional information on bitter substances and gastric acid secretion

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Working under sterile conditions in the cell culture lab.
J. Krpelan
Leibniz-LSB@TUM

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