1. Toll-Like Receptor-4 Inhibits Enterocyte Proliferation via Impaired β-Catenin Signaling in Necrotizing Enterocolitis
- Author
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Ward M. Richardson, Maria F. Branca, Zachary Grant, Xia Hua Shi, David J. Hackam, Thomas Prindle, Richard A. Shapiro, Steven C. Gribar, Chhinder P. Sodhi, Anthony Russo, and Congrong Ma
- Subjects
Lipopolysaccharides ,Small interfering RNA ,Beta-catenin ,Colon ,Enterocyte ,Article ,Adenoviridae ,Glycogen Synthase Kinase 3 ,Mice ,Intestinal mucosa ,Enterocolitis, Necrotizing ,Ileum ,medicine ,Animals ,Humans ,Intestinal Mucosa ,GSK3B ,Cells, Cultured ,beta Catenin ,Mice, Inbred C3H ,Toll-like receptor ,Glycogen Synthase Kinase 3 beta ,Hepatology ,biology ,Infant, Newborn ,Gastroenterology ,Molecular biology ,Mice, Mutant Strains ,digestive system diseases ,Cell biology ,Toll-Like Receptor 4 ,Enterocytes ,medicine.anatomical_structure ,biology.protein ,TLR4 ,Signal transduction ,Cell Division ,Signal Transduction - Abstract
Background & Aims Necrotizing enterocolitis (NEC), the leading cause of gastrointestinal death from gastrointestinal disease in preterm infants, is characterized by exaggerated TLR4 signaling and decreased enterocyte proliferation through unknown mechanisms. Given the importance of β-catenin in regulating proliferation of many cell types, we hypothesize that TLR4 impairs enterocyte proliferation in NEC via impaired β-catenin signaling. Methods Enterocyte proliferation was detected in IEC-6 cells or in ileum or colon from wild-type, TLR4-mutant, or TLR4 −/− mice after induction of NEC or endotoxemia. β-Catenin signaling was assessed by cell fractionation or immunoconfocal microscopy to detect its nuclear translocation. Activation and inhibition of β-catenin were achieved via cDNA or small interfering RNA, respectively. TLR4 in the intestinal mucosa was inhibited with adenoviruses expressing dominant-negative TLR4. Results TLR4 activation significantly impaired enterocyte proliferation in the ileum but not colon in newborn but not adult mice and in IEC-6 enterocytes. β-Catenin activation reversed these effects in vitro. To determine the mechanisms involved, TLR4 activation phosphorylated the upstream inhibitory kinase GSK3β, causing β-catenin degradation. NEC in both mouse and humans was associated with decreased β-catenin and increased mucosal GSK3β expression. Strikingly, the inhibition of enterocyte β-catenin signaling in NEC could be reversed, and enterocyte proliferation restored, through adenoviral-mediated inhibition of TLR4 signaling in the small intestinal mucosa. Conclusion We now report a novel pathway linking TLR4 with inhibition of β-catenin signaling via GSK3β activation, leading to reduced enterocyte proliferation in vitro and in vivo. These data provide additional insights into the pathogenesis of diseases of intestinal inflammation such as NEC.
- Published
- 2010