BQ788 reveals glial ETB receptor modulation of neuronal cholinergic and nitrergic pathways to inhibit intestinal motility: Linked to postoperative ileus

Elvio Mazzotta; Iveta Grants; Egina Villalobos-Hernandez; Samhita Chaudhuri; Jonathon L McClain; Luisa Seguella; Derek M Kendig; Bryan A Blakeney; Srinivasa K Murthy; Reiner Schneider; Patrick Leven; Sven Wehner; Alan Harzman; John R Grider; Brian D Gulbransen; Fedias L Christofi

doi:10.1111/bph.16145

BQ788 reveals glial ET_B receptor modulation of neuronal cholinergic and nitrergic pathways to inhibit intestinal motility: Linked to postoperative ileus

Br J Pharmacol. 2023 Oct;180(19):2550-2576. doi: 10.1111/bph.16145. Epub 2023 Jun 25.

Authors

Elvio Mazzotta¹, Iveta Grants¹, Egina Villalobos-Hernandez¹, Samhita Chaudhuri¹, Jonathon L McClain², Luisa Seguella³, Derek M Kendig⁴, Bryan A Blakeney⁴, Srinivasa K Murthy⁴, Reiner Schneider⁵, Patrick Leven⁵, Sven Wehner⁵, Alan Harzman⁶, John R Grider⁴, Brian D Gulbransen², Fedias L Christofi¹

Affiliations

¹ Department of Anesthesiology, Wexner Medical Center, The Ohio State University, Columbus, Ohio, USA.
² Department of Physiology, Michigan State University, East Lansing, Michigan, USA.
³ Department of Physiology and Pharmacology "V. Erspamer", Sapienza University of Rome, Rome, Italy.
⁴ Department of Physiology and Biophysics, Virginia Commonwealth University, Richmond, Virginia, USA.
⁵ Department of Surgery, University of Bonn, Bonn, Germany.
⁶ Department of GI Surgery, Wexner Medical Center, The Ohio State University, Columbus, Ohio, USA.

PMID: 37198101
DOI: 10.1111/bph.16145

Abstract

Background and purpose: ET-1 signalling modulates intestinal motility and inflammation, but the role of ET-1/ET_B receptor signalling is poorly understood. Enteric glia modulate normal motility and inflammation. We investigated whether glial ET_B signalling regulates neural-motor pathways of intestinal motility and inflammation.

Experimental approach: We studied ET_B signalling using: ET_B drugs (ET-1, SaTX, BQ788), activity-dependent stimulation of neurons (high K⁺ -depolarization, EFS), gliotoxins, Tg (Ednrb-EGFP)EP59Gsat/Mmucd mice, cell-specific mRNA in Sox10^CreERT2 ;Rpl22-HAflx or ChAT^Cre ;Rpl22-HAflx mice, Sox10^CreERT2 ::GCaMP5g-tdT, Wnt1^Cre2 ::GCaMP5g-tdT mice, muscle tension recordings, fluid-induced peristalsis, ET-1 expression, qPCR, western blots, 3-D LSM-immunofluorescence co-labelling studies in LMMP-CM and a postoperative ileus (POI) model of intestinal inflammation.

Key results: In the muscularis externa ET_B receptor is expressed exclusively in glia. ET-1 is expressed in RiboTag (ChAT)-neurons, isolated ganglia and intra-ganglionic varicose-nerve fibres co-labelled with peripherin or SP. ET-1 release provides activity-dependent glial ET_B receptor modulation of Ca²⁺ waves in neural evoked glial responses. BQ788 reveals amplification of glial and neuronal Ca²⁺ responses and excitatory cholinergic contractions, sensitive to L-NAME. Gliotoxins disrupt SaTX-induced glial-Ca²⁺ waves and prevent BQ788 amplification of contractions. The ET_B receptor is linked to inhibition of contractions and peristalsis. Inflammation causes glial ET_B up-regulation, SaTX-hypersensitivity and glial amplification of ET_B signalling. In vivo BQ788 (i.p., 1 mg·kg^-1 ) attenuates intestinal inflammation in POI.

Conclusion and implications: Enteric glial ET-1/ET_B signalling provides dual modulation of neural-motor circuits to inhibit motility. It inhibits excitatory cholinergic and stimulates inhibitory nitrergic motor pathways. Amplification of glial ET_B receptors is linked to muscularis externa inflammation and possibly pathogenic mechanisms of POI.

Keywords: ET-1; ETB receptor; enteric glia; inflammation; intestinal motility; post-operative ileus.

MeSH terms

Animals
Cholinergic Agents / metabolism
Gastrointestinal Motility
Gliotoxin* / metabolism
Ileus* / drug therapy
Ileus* / etiology
Ileus* / metabolism
Inflammation / metabolism
Mice
Neuroglia
Neurons / metabolism

Substances

BQ 788
Gliotoxin
Cholinergic Agents

Abstract

MeSH terms

Substances

Grants and funding