Stem cell and niche regulation in human short bowel syndrome
Vered A. Gazit, Elzbieta A. Swietlicki, Miranda U. Liang, Adam Surti, Raechel McDaniel, Mackenzie Geisman, David M. Alvarado, Matthew A. Ciorba, Grant Bochicchio, Obeid Ilahi, John Kirby, William J. Symons, Nicholas O. Davidson, Marc S. Levin, Deborah C. Rubin
Vered A. Gazit, Elzbieta A. Swietlicki, Miranda U. Liang, Adam Surti, Raechel McDaniel, Mackenzie Geisman, David M. Alvarado, Matthew A. Ciorba, Grant Bochicchio, Obeid Ilahi, John Kirby, William J. Symons, Nicholas O. Davidson, Marc S. Levin, Deborah C. Rubin
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Research Article Gastroenterology

Stem cell and niche regulation in human short bowel syndrome

Abstract

Loss of functional small bowel surface area following surgical resection for disorders such as Crohn’s disease, intestinal ischemic injury, radiation enteritis, and in children, necrotizing enterocolitis, atresia, and gastroschisis, may result in short bowel syndrome, with attendant high morbidity, mortality, and health care costs in the United States. Following resection, the remaining small bowel epithelium mounts an adaptive response, resulting in increased crypt cell proliferation, increased villus height, increased crypt depth, and enhanced nutrient and electrolyte absorption. Although these morphologic and functional changes are well described in animal models, the adaptive response in humans is less well understood. Clinically the response is unpredictable and often inadequate. Here we address the hypotheses that human intestinal stem cell populations are expanded and that the stem cell niche is regulated following massive gut resection in short bowel syndrome (SBS). We use intestinal enteroid cultures from patients with SBS to show that the magnitude and phenotype of the adaptive stem cell response are both regulated by stromal niche cells, including intestinal subepithelial myofibroblasts, which are activated by intestinal resection to enhance epithelial stem and proliferative cell responses. Our data suggest that myofibroblast regulation of bone morphogenetic protein signaling pathways plays a role in the gut adaptive response after resection.

Authors

Vered A. Gazit, Elzbieta A. Swietlicki, Miranda U. Liang, Adam Surti, Raechel McDaniel, Mackenzie Geisman, David M. Alvarado, Matthew A. Ciorba, Grant Bochicchio, Obeid Ilahi, John Kirby, William J. Symons, Nicholas O. Davidson, Marc S. Levin, Deborah C. Rubin

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Figure 8

Mesenchymal marker and BMP signaling pathway gene expression in normal and SBS ISEMFs.

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Mesenchymal marker and BMP signaling pathway gene expression in normal a...
(A) SBS ISEMFs have increased α-SMA (*P = 0.0109) but reduced epimorphin mRNA expression (*P = 0.0264) compared with normal ISEMFs. Data are mean ± SEM. Statistical analysis by Student’s t test. There was no change in FOXL1 or PDGFRα mRNA expression. (B) Immunohistochemical analysis of human normal and SBS ISEMFs shows expression of myofibroblast marker genes α-SMA and vimentin. (C) BMP4 signaling pathway gene expression in SBS ISEMFs. ISEMFs from normal and SBS patient biopsies were isolated as per Methods. BMP4 mRNA is reduced in SBS. *P = 0.0528. SBS, n = 4; normal, n = 7–8. Data are means ± SEM. Statistical analysis by Student’s t test.