Hirschsprung's Disease Associated Enterocolitis Clinical Trial
Official title:
The Enteric Nervous System as Modulator of Mucosal Immune Cells
Hirschsprung's disease (HD) is diagnosed shortly after birth and is characterized by the presence of megacolon. HD is caused when ganglion cells of the enteric nervous system (ENS) in the wall of the large intestine do not develop before birth. This results in a lack of gastrointestinal motility and leads to stool obstruction. It is known that ablation of enteric nerves is associated with intestinal infection and inflammation. Indeed the most severe complication in HD is Hirschsprung's associated enterocolitis (HAEC), characterized by explosive diarrhea, abdominal distension, fever and impending septic shock. Bacteria overgrowth and changes in colonic mucosal immune cell populations during HAEC suggest a possible defect in mucosal immune homeostasis. Under steady state conditions, the mucosal immune system must be tightly controlled to avoid harmful reactions against commensal flora and food antigens, while allowing protective immune responses against invading pathogens. This balance between tolerance and defense is influenced by the mucosal microenvironment, which in turn determines the phenotype and stability of mucosal immune cell populations. The goal of this project is to understand if the enteric nervous system plays a role in regulating mucosal immunity and how this might contribute to the development of HAEC.
Hirschsprung's disease (HD) is diagnosed shortly after birth and is characterized by the absence of enteric nerves in parts of colon [Amiel et al.]. Following surgical correction many patients develop HD-associated enterocolitis (HAEC), a condition distinguished by intestinal inflammation resulting in abdominal distension, severe diarrhea, fever and sepsis [Demehri et al.]. The underlying factors leading to HAEC remain poorly understood and likely involve a defect in epithelial barrier, including decreased mucin production and insufficient immunoglobulin translocation. The establishment of the epithelial barrier is dependent on epithelial recognition of microbial products by innate immune receptors, like toll-like receptors (TLRs) [Peterson et al.]. TLR-dependent epithelial recognition of microflora also coordinates the immune response away from harmless commensal bacteria and towards pathogenic invaders. Both innate and adaptive effector cell functions are influenced by epithelial-derived signals. Under homeostatic conditions commensal bacteria induce anti-inflammatory cytokines in epithelial cells which trigger a tolerogenic phenotype in mucosal antigen presenting cells (APC) resulting in generation of commensal-specific regulatory T cells (Tregs) [Curotto de Lafaille et al.]. During infection, recognition of pathogenic organisms by epithelial cells leads to secretion of inflammatory cytokines thereby inducing an inflammatory APC phenotype which promotes T effector cell (Th1, Th17) generation. The enteric nervous system is directly located underneath the epithelium and controls epithelial cell function. Ablation of enteric glia cells, one of the two cell types of the ENS, in mice is associated with inflammation and enterocolitis [Cornet et al.]. In a study from 2011 Flamant and co-workers demonstrate that enteric glia cells protect from a shigella flexneri invasion by preventing lesions in the epithelial barrier mediated by the glia cell derived neurothrophic factor S-nitrosoglutathione (GSNO) [Flamant et al.]. We hypothesize that the lack of an enteric nervous system in HD patients modulates the microbial recognition of epithelial cells and thereby the phenotype of underlying mucosal APCs and effector T cells; this might be associated with the manifestation of HAEC. ;
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Completed |
NCT01934959 -
A Trial on Probiotics in Preventing Hirschsprung's Disease Associated Entercolitis
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Phase 0 |