Pamela Choi1, Jun Guo, Christopher R Erwin, Brad W Warner. 1. Department of Surgery, Division of Pediatric Surgery, St Louis Children's Hospital, Washington University School of Medicine, St Louis, MO 63110, USA.
Abstract
PURPOSE: We have previously demonstrated a hyperplastic phenotype when Rb expression was disrupted within the intestinal epithelium. These findings mimic resection-induced adaptation suggesting a possible mechanistic role for Rb during adaptation. The purpose of the present study was to elucidate a mechanism for how Rb deficiency induces intestinal hyperplasia. METHODS: Enterocytes isolated from intestine-specific Rb knockout mice (Rb-IKO) underwent a microarray to elucidate their gene expression profile. IGF2 expression was significantly elevated, which was subsequently confirmed by RT-PCR and in situ mRNA hybridization. Mice with deficient expression of IGF2 or its receptor IGF1R were therefore crossed with Rb-IKO mice to determine the significance of IGF2 in mediating the Rb-IKO intestinal phenotype. RESULTS: Expression of IGF2 was significantly elevated in villus enterocytes of Rb-IKO mice. The mucosal hyperplasia in Rb-IKO mice was reversed when either IGF2 or IGF1R expression was genetically disrupted in Rb-IKO mice. CONCLUSION: IGF-2 expression is significantly elevated in villus enterocytes and is required for the hyperplastic intestinal mucosal phenotype of Rb-IKO mice. The trophic effects of IGF2 require intact IGF1R signaling within the intestinal epithelium. These findings reveal novel regulatory roles for Rb in expanding intestinal mucosal surface area.
PURPOSE: We have previously demonstrated a hyperplastic phenotype when Rb expression was disrupted within the intestinal epithelium. These findings mimic resection-induced adaptation suggesting a possible mechanistic role for Rb during adaptation. The purpose of the present study was to elucidate a mechanism for how Rb deficiency induces intestinal hyperplasia. METHODS: Enterocytes isolated from intestine-specific Rb knockout mice (Rb-IKO) underwent a microarray to elucidate their gene expression profile. IGF2 expression was significantly elevated, which was subsequently confirmed by RT-PCR and in situ mRNA hybridization. Mice with deficient expression of IGF2 or its receptor IGF1R were therefore crossed with Rb-IKO mice to determine the significance of IGF2 in mediating the Rb-IKO intestinal phenotype. RESULTS: Expression of IGF2 was significantly elevated in villus enterocytes of Rb-IKO mice. The mucosal hyperplasia in Rb-IKO mice was reversed when either IGF2 or IGF1R expression was genetically disrupted in Rb-IKO mice. CONCLUSION:IGF-2 expression is significantly elevated in villus enterocytes and is required for the hyperplastic intestinal mucosal phenotype of Rb-IKO mice. The trophic effects of IGF2 require intact IGF1R signaling within the intestinal epithelium. These findings reveal novel regulatory roles for Rb in expanding intestinal mucosal surface area.
Authors: Kathryn J Rowland; Mark E McMellen; Derek Wakeman; Wambul S Wandu; Christopher R Erwin; Brad W Warner Journal: J Pediatr Surg Date: 2012-09 Impact factor: 2.545
Authors: Raphael C Sun; Pamela M Choi; Jose L Diaz-Miron; Joshua Sommovilla; Jun Guo; Christopher R Erwin; Brad W Warner Journal: J Pediatr Surg Date: 2017-03-18 Impact factor: 2.545
Authors: Raphael C Sun; Pamela M Choi; Jose Diaz-Miron; Joshua Sommovilla; Jun Guo; Christopher R Erwin; Brad W Warner Journal: J Gastrointest Surg Date: 2014-12-18 Impact factor: 3.452
Authors: Pamela M Choi; Raphael C Sun; Josh Sommovilla; Jose Diaz-Miron; Jun Guo; Christopher R Erwin; Brad W Warner Journal: J Gastrointest Surg Date: 2014-07-08 Impact factor: 3.452