Lack of Mucosal Cholinergic Innervation Is Associated With Increased Risk of Enterocolitis in Hirschsprung's Disease

Overview

Journal Cell Mol Gastroenterol Hepatol

Specialty Gastroenterology

Date 2021 Mar 20

PMID 33741501

Citations 17

Authors

Simone Keck

Virginie Galati-Fournier

Urs Kym

Michele Moesch

Jakob Usemann

Isabelle Muller

Ulrike Subotic

Sasha J Tharakan

Thomas Krebs

Eleuthere Stathopoulos

Peter Schmittenbecher

Dietmar Cholewa

Philipp Romero

Bertram Reingruber

Elisabeth Bruder

Nig Study Group

Stefan Holland-Cunz

Affiliations

Soon will be listed here.

Abstract

Background & Aims: Hirschsprung's disease (HSCR) is a congenital intestinal motility disorder defined by the absence of enteric neuronal cells (ganglia) in the distal gut. The development of HSCR-associated enterocolitis remains a life-threatening complication. Absence of enteric ganglia implicates innervation of acetylcholine-secreting (cholinergic) nerve fibers. Cholinergic signals have been reported to control excessive inflammation, but the impact on HSCR-associated enterocolitis is unknown.

Methods: We enrolled 44 HSCR patients in a prospective multicenter study and grouped them according to their degree of colonic mucosal acetylcholinesterase-positive innervation into low-fiber and high-fiber patient groups. The fiber phenotype was correlated with the tissue cytokine profile as well as immune cell frequencies using Luminex analysis and fluorescence-activated cell sorting analysis of colonic tissue and immune cells. Using confocal immunofluorescence microscopy, macrophages were identified in close proximity to nerve fibers and characterized by RNA-seq analysis. Microbial dysbiosis was analyzed in colonic tissue using 16S-rDNA gene sequencing. Finally, the fiber phenotype was correlated with postoperative enterocolitis manifestation.

Results: The presence of mucosal nerve fiber innervation correlated with reduced T-helper 17 cytokines and cell frequencies. In high-fiber tissue, macrophages co-localized with nerve fibers and expressed significantly less interleukin 23 than macrophages from low-fiber tissue. HSCR patients lacking mucosal nerve fibers showed microbial dysbiosis and had a higher incidence of postoperative enterocolitis.

Conclusions: The mucosal fiber phenotype might serve as a prognostic marker for enterocolitis development in HSCR patients and may offer an approach to personalized patient care and new therapeutic options.

Citing Articles

Hirschsprung-associated enterocolitis: a comprehensive review.

Ziogas I, Kuruvilla K, Fu M, Gosain A World J Pediatr Surg. 2024; 7(3):e000878.

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Neuroimmune Crossroads: The Interplay of the Enteric Nervous System and Intestinal Macrophages in Gut Homeostasis and Disease.

Lou M, Heuckeroth R, Tjaden N Biomolecules. 2024; 14(9).

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Paneth-like cells disruption and intestinal dysbiosis in the development of enterocolitis in an iatrogenic rectosigmoid hypoganglionosis rat model.

Budianto I, Kusmardi K, Maulana A, Arumugam S, Afrin R, Soetikno V Front Surg. 2024; 11:1407948.

PMID: 39315293 PMC: 11417098. DOI: 10.3389/fsurg.2024.1407948.

Enteric neural stem cell transplant restores gut motility in mice with Hirschsprung disease.

Rahman A, Ohkura T, Bhave S, Pan W, Ohishi K, Ott L JCI Insight. 2024; 9(17).

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A targeted CRISPR-Cas9 mediated F0 screen identifies genes involved in establishment of the enteric nervous system.

Moreno-Campos R, Singleton E, Uribe R PLoS One. 2024; 19(5):e0303914.

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