A semaphorin-plexin-Rasal1 signaling pathway inhibits gastrin expression and protects against peptic ulcers

Rui Xu; Carsten Höß; Jakub M Swiercz; Dominique T Brandt; Veronika Lutz; Natalia Petersen; Rui Li; Dandan Zhao; Arkadiusz Oleksy; Tilbe Creigh-Pulatmen; Martina Trokter; Marina Fedorova; Ann Atzberger; Rune B Strandby; August A. Olsen; Michael P. Achiam; David Matthews; Magdalena Huber; Hermann-Josef Gröne; Stefan Offermanns; Thomas Worzfeld

doi:10.1126/scitranslmed.abf1922

A semaphorin-plexin-Rasal1 signaling pathway inhibits gastrin expression and protects against peptic ulcers

Rui Xu, Carsten Höß, Jakub M Swiercz, Dominique T Brandt, Veronika Lutz, Natalia Petersen, Rui Li, Dandan Zhao, Arkadiusz Oleksy, Tilbe Creigh-Pulatmen, Martina Trokter, Marina Fedorova, Ann Atzberger, Rune B Strandby, August A. Olsen, Michael P. Achiam, David Matthews, Magdalena Huber, Hermann-Josef Gröne, Stefan OffermannsThomas Worzfeld

Research output: Contribution to journal › Journal article › Research › peer-review

7 Citations (Scopus)

Abstract

Peptic ulcer disease is a frequent clinical problem with potentially serious complications such as bleeding or perforation. A decisive factor in the pathogenesis of peptic ulcers is gastric acid, the secretion of which is controlled by the hormone gastrin released from gastric G cells. However, the molecular mechanisms regulating gastrin plasma concentrations are poorly understood. Here, we identified a semaphorin-plexin signaling pathway that operates in gastric G cells to inhibit gastrin expression on a transcriptional level, thereby limiting food-stimulated gastrin release and gastric acid secretion. Using a systematic siRNA screening approach combined with biochemical, cell biology, and in vivo mouse experiments, we found that the RasGAP protein Rasal1 is a central mediator of plexin signal transduction, which suppresses gastrin expression through inactivation of the small GTPase R-Ras. Moreover, we show that Rasal1 is pathophysiologically relevant for the pathogenesis of peptic ulcers induced by nonsteroidal anti-inflammatory drugs (NSAIDs), a main risk factor of peptic ulcers in humans. Last, we show that application of recombinant semaphorin 4D alleviates peptic ulcer disease in mice in vivo, demonstrating that this signaling pathway can be harnessed pharmacologically. This study unravels a mode of G cell regulation that is functionally important in gastric homeostasis and disease.

Original language	English
Article number	eabf1922
Journal	Science Translational Medicine
Volume	14
Issue number	654
ISSN	1946-6234
DOIs	https://doi.org/10.1126/scitranslmed.abf1922
Publication status	Published - 2022

Keywords

Animals
Cell Adhesion Molecules
GTPase-Activating Proteins
Gastrins/adverse effects
Humans
Mice
Nerve Tissue Proteins
Peptic Ulcer/chemically induced
Semaphorins
Signal Transduction

Access to Document

10.1126/scitranslmed.abf1922

Cite this

Xu, R., Höß, C., Swiercz, J. M., Brandt, D. T., Lutz, V., Petersen, N., Li, R., Zhao, D., Oleksy, A., Creigh-Pulatmen, T., Trokter, M., Fedorova, M., Atzberger, A., Strandby, R. B., Olsen, A. A., Achiam, M. P., Matthews, D., Huber, M., Gröne, H-J., ... Worzfeld, T. (2022). A semaphorin-plexin-Rasal1 signaling pathway inhibits gastrin expression and protects against peptic ulcers. Science Translational Medicine, 14(654), [eabf1922]. https://doi.org/10.1126/scitranslmed.abf1922

A semaphorin-plexin-Rasal1 signaling pathway inhibits gastrin expression and protects against peptic ulcers. / Xu, Rui; Höß, Carsten; Swiercz, Jakub M; Brandt, Dominique T; Lutz, Veronika; Petersen, Natalia; Li, Rui; Zhao, Dandan; Oleksy, Arkadiusz; Creigh-Pulatmen, Tilbe; Trokter, Martina; Fedorova, Marina; Atzberger, Ann; Strandby, Rune B; Olsen, August A.; Achiam, Michael P.; Matthews, David; Huber, Magdalena; Gröne, Hermann-Josef; Offermanns, Stefan; Worzfeld, Thomas.

In: Science Translational Medicine, Vol. 14, No. 654, eabf1922, 2022.

Research output: Contribution to journal › Journal article › Research › peer-review

Xu, R, Höß, C, Swiercz, JM, Brandt, DT, Lutz, V, Petersen, N, Li, R, Zhao, D, Oleksy, A, Creigh-Pulatmen, T, Trokter, M, Fedorova, M, Atzberger, A, Strandby, RB, Olsen, AA, Achiam, MP, Matthews, D, Huber, M, Gröne, H-J, Offermanns, S & Worzfeld, T 2022, 'A semaphorin-plexin-Rasal1 signaling pathway inhibits gastrin expression and protects against peptic ulcers', Science Translational Medicine, vol. 14, no. 654, eabf1922. https://doi.org/10.1126/scitranslmed.abf1922

Xu, Rui ; Höß, Carsten ; Swiercz, Jakub M ; Brandt, Dominique T ; Lutz, Veronika ; Petersen, Natalia ; Li, Rui ; Zhao, Dandan ; Oleksy, Arkadiusz ; Creigh-Pulatmen, Tilbe ; Trokter, Martina ; Fedorova, Marina ; Atzberger, Ann ; Strandby, Rune B ; Olsen, August A. ; Achiam, Michael P. ; Matthews, David ; Huber, Magdalena ; Gröne, Hermann-Josef ; Offermanns, Stefan ; Worzfeld, Thomas. / A semaphorin-plexin-Rasal1 signaling pathway inhibits gastrin expression and protects against peptic ulcers. In: Science Translational Medicine. 2022 ; Vol. 14, No. 654.

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abstract = "Peptic ulcer disease is a frequent clinical problem with potentially serious complications such as bleeding or perforation. A decisive factor in the pathogenesis of peptic ulcers is gastric acid, the secretion of which is controlled by the hormone gastrin released from gastric G cells. However, the molecular mechanisms regulating gastrin plasma concentrations are poorly understood. Here, we identified a semaphorin-plexin signaling pathway that operates in gastric G cells to inhibit gastrin expression on a transcriptional level, thereby limiting food-stimulated gastrin release and gastric acid secretion. Using a systematic siRNA screening approach combined with biochemical, cell biology, and in vivo mouse experiments, we found that the RasGAP protein Rasal1 is a central mediator of plexin signal transduction, which suppresses gastrin expression through inactivation of the small GTPase R-Ras. Moreover, we show that Rasal1 is pathophysiologically relevant for the pathogenesis of peptic ulcers induced by nonsteroidal anti-inflammatory drugs (NSAIDs), a main risk factor of peptic ulcers in humans. Last, we show that application of recombinant semaphorin 4D alleviates peptic ulcer disease in mice in vivo, demonstrating that this signaling pathway can be harnessed pharmacologically. This study unravels a mode of G cell regulation that is functionally important in gastric homeostasis and disease.",

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AU - Xu, Rui

AU - Höß, Carsten

AU - Swiercz, Jakub M

AU - Brandt, Dominique T

AU - Lutz, Veronika

AU - Petersen, Natalia

AU - Li, Rui

AU - Zhao, Dandan

AU - Oleksy, Arkadiusz

AU - Creigh-Pulatmen, Tilbe

AU - Trokter, Martina

AU - Fedorova, Marina

AU - Atzberger, Ann

AU - Strandby, Rune B

AU - Olsen, August A.

AU - Achiam, Michael P.

AU - Matthews, David

AU - Huber, Magdalena

AU - Gröne, Hermann-Josef

AU - Offermanns, Stefan

AU - Worzfeld, Thomas

PY - 2022

Y1 - 2022

N2 - Peptic ulcer disease is a frequent clinical problem with potentially serious complications such as bleeding or perforation. A decisive factor in the pathogenesis of peptic ulcers is gastric acid, the secretion of which is controlled by the hormone gastrin released from gastric G cells. However, the molecular mechanisms regulating gastrin plasma concentrations are poorly understood. Here, we identified a semaphorin-plexin signaling pathway that operates in gastric G cells to inhibit gastrin expression on a transcriptional level, thereby limiting food-stimulated gastrin release and gastric acid secretion. Using a systematic siRNA screening approach combined with biochemical, cell biology, and in vivo mouse experiments, we found that the RasGAP protein Rasal1 is a central mediator of plexin signal transduction, which suppresses gastrin expression through inactivation of the small GTPase R-Ras. Moreover, we show that Rasal1 is pathophysiologically relevant for the pathogenesis of peptic ulcers induced by nonsteroidal anti-inflammatory drugs (NSAIDs), a main risk factor of peptic ulcers in humans. Last, we show that application of recombinant semaphorin 4D alleviates peptic ulcer disease in mice in vivo, demonstrating that this signaling pathway can be harnessed pharmacologically. This study unravels a mode of G cell regulation that is functionally important in gastric homeostasis and disease.

AB - Peptic ulcer disease is a frequent clinical problem with potentially serious complications such as bleeding or perforation. A decisive factor in the pathogenesis of peptic ulcers is gastric acid, the secretion of which is controlled by the hormone gastrin released from gastric G cells. However, the molecular mechanisms regulating gastrin plasma concentrations are poorly understood. Here, we identified a semaphorin-plexin signaling pathway that operates in gastric G cells to inhibit gastrin expression on a transcriptional level, thereby limiting food-stimulated gastrin release and gastric acid secretion. Using a systematic siRNA screening approach combined with biochemical, cell biology, and in vivo mouse experiments, we found that the RasGAP protein Rasal1 is a central mediator of plexin signal transduction, which suppresses gastrin expression through inactivation of the small GTPase R-Ras. Moreover, we show that Rasal1 is pathophysiologically relevant for the pathogenesis of peptic ulcers induced by nonsteroidal anti-inflammatory drugs (NSAIDs), a main risk factor of peptic ulcers in humans. Last, we show that application of recombinant semaphorin 4D alleviates peptic ulcer disease in mice in vivo, demonstrating that this signaling pathway can be harnessed pharmacologically. This study unravels a mode of G cell regulation that is functionally important in gastric homeostasis and disease.

KW - Animals

KW - Cell Adhesion Molecules

KW - GTPase-Activating Proteins

KW - Gastrins/adverse effects

KW - Humans

KW - Mice

KW - Nerve Tissue Proteins

KW - Peptic Ulcer/chemically induced

KW - Semaphorins

KW - Signal Transduction

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DO - 10.1126/scitranslmed.abf1922

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VL - 14

JO - Science Translational Medicine

JF - Science Translational Medicine

SN - 1946-6234

IS - 654

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