Was machen Bitter-Rezeptoren im Magen  [06.03.20]

Bitterstoffe, z.B. sekundäre Pflanzenstoffe, beeinflussen unsere Nahrungsaufnahme und Stoffwechselprozesse. Die Erkennung von Bitterstoffen wird durch G-Protein-gekoppelten Rezeptoren ermöglicht. Eine Hohenheim-Homburg-Kooperation weist in einer aktuellen Studie die Expression eines Bitter-Rezeptors in verschiedenen Zelltypen im Magenepithel nach. Damit ist der Magen in der Lage, bestimmte Bitterstoffe zu detektieren und entsprechende Reaktionen auszulösen. Die Autoren spekulieren, ob die Kombinationen verschiedener Rezeptoren in unterschiedlichen Zelltypen oder in bestimmten Zellkompartimenten definierte Reaktionen auf verschiedene Bitterstoffe ermöglichen. Dies könnte die unterschiedlichen Wirkungen von Bitterstoffen auf diverse Magenfunktionen erklären, wie z.B. auf die Magenentleerung (Glendinning et al., 2008), die Kontraktilität, die Ausschüttung des Hungerhormons Ghrelin (Janssen et al., 2011, 2012; Wang et al., 2019) oder auf die Sekretion von Magensäure (Liszt et al., 2017, 2018).

Copyright © 2020 Widmayer, Partsch, Pospiech, Kusumakshi, Boehm and Breer

 

Originalpublikation:

Widmayer P1, Partsch V1, Pospiech J1, Kusumakshi S2, Boehm U2, Breer H1.(2020) Distinct Cell Types With the Bitter Receptor Tas2r126 in Different Compartments of the Stomach.https://www.frontiersin.org/articles/10.3389/fphys.2020.00032/full Front Physiol. 2020 Feb 7;11:32. doi: 10.3389/fphys.2020.00032 . eCollection 2020.

 

  1. Institute of Physiology, University of Hohenheim, Stuttgart, Germany.
  2. Experimental Pharmacology, Center for Molecular Signaling, School of Medicine, Saarland University, Homburg, Germany.
Abstract

Cells expressing bitter taste receptors (T2Rs or Tas2rs) in extraoral tissues are considered to be chemosensory cells mediating protective responses to potentially harmful or even antiinflammatory or antimicrobial compounds. In a previous study the activity of the Tas2R143/Tas2R135/Tas2r126 cluster promoter in the stomach was monitored using a Cre-reporter mouse line. Reporter gene expression and Tas2r126 mRNA were found in brush cells located at the distal wall of the gastric groove. In this study, we explored whether brush cells and epithelial cells of the stomach in fact contain the Tas2r126 receptor protein. Using immunohistochemistry, we demonstrate the presence of Tas2r126 immunoreactivity in different cell populations in the glandular stomach, in a subset of brush cells at the gastric groove and in unique glandular units as well as in certain enteroendocrine cells. In brush cells at the gastric groove, a strong immunofluorescence signal for the Tas2r126 receptor was observed at the most apical region of the cells, i.e., the microvillar tuft. In addition, we found a high density of Tas2r126-positive brush cells in the unique glandular units. These invaginations are located distally to the groove, open directly into the furrow and are enwrapped by smoothelin-immunoreactive muscles. In the corpus, Tas2r126 immunoreactivity was found in histamine-producing ECL cells and in ghrelin-producing X/A-like cells, the main enteroendcrine cells of this compartment. In the antrum, Tas2r126 labeling was observed in serotonin-storing EC cells and ghrelin cells, both representing only minor populations of enteroendocrine cells in this compartment. In conclusion, our data provide evidence for the presence of the Tas2r126 receptor protein in distinct cell types in the epithelium lining the mouse stomach which render the stomach responsive to agonists for bitter receptors.

KEYWORDS:

T2R; Tas2r; bitter sensing; brush cell; enteroendocrine cells; gastric groove; glandular units


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