BACKGROUND & AIMS: The mechanisms of interleukin-11 (IL-11) cytoprotection in intestinal epithelial injury are largely unknown. IL-11 protects barrier integrity during oxidant stress, a common endpoint of numerous types of intestinal injury including ischemia and immune-mediated inflammation. Because heat shock proteins (hsp) are cytoprotective in intestinal epithelia, we hypothesized that IL-11-conferred cytoprotection is mediated by inducible hsps. METHODS: IL-11 receptor (IL-11R) activation was determined using phospho-specific antibodies to STAT3. IL-11 induction of hsp72 and hsp25 was determined by immunoblot in IEC-18 crypt and young adult mouse colon colonic epithelial cells. Epithelial resistance to oxidant injury by monochloramine was determined by (51)Cr release. Stable hsp anti-sense IEC-18 cell clones were obtained by electroporation and hygromycin B selection. The IL-11 effect on hsp25 distribution was characterized by analysis of Triton x-100 insoluble fractions, 2-D isoelectric focusing gels, and confocal microscopy. RESULTS: IL-11R signaling was detected in all cells under study. IL-11 induces hsp25 in an intestinal epithelial-specific manner that significantly preserves cellular viability in the presence of monochloramine. This effect was significantly reversed in intestinal epithelia stably expressing anti-sense to hsp25. IL-11 induced a shift of hsp25 to Triton x-100 insoluble fractions containing cytoskeletal elements, which was not associated with altered hsp25 phosphorylation. The shift was not paralleled by increased hsp25 co-localization with F-actin by confocal microscopy. CONCLUSIONS: The induction of hsp25 by IL-11 confers epithelial-specific cytoprotection that is independent of phosphorylation-dependent co-localization of hsp25 to F-actin, thereby contributing to the protective effects of IL-11 in models of intestinal epithelial injury.
BACKGROUND & AIMS: The mechanisms of interleukin-11 (IL-11) cytoprotection in intestinal epithelial injury are largely unknown. IL-11 protects barrier integrity during oxidant stress, a common endpoint of numerous types of intestinal injury including ischemia and immune-mediated inflammation. Because heat shock proteins (hsp) are cytoprotective in intestinal epithelia, we hypothesized that IL-11-conferred cytoprotection is mediated by inducible hsps. METHODS:IL-11 receptor (IL-11R) activation was determined using phospho-specific antibodies to STAT3. IL-11 induction of hsp72 and hsp25 was determined by immunoblot in IEC-18 crypt and young adult mousecolon colonic epithelial cells. Epithelial resistance to oxidant injury by monochloramine was determined by (51)Cr release. Stable hsp anti-sense IEC-18 cell clones were obtained by electroporation and hygromycin B selection. The IL-11 effect on hsp25 distribution was characterized by analysis of Triton x-100 insoluble fractions, 2-D isoelectric focusing gels, and confocal microscopy. RESULTS: IL-11R signaling was detected in all cells under study. IL-11 induces hsp25 in an intestinal epithelial-specific manner that significantly preserves cellular viability in the presence of monochloramine. This effect was significantly reversed in intestinal epithelia stably expressing anti-sense to hsp25. IL-11 induced a shift of hsp25 to Triton x-100 insoluble fractions containing cytoskeletal elements, which was not associated with altered hsp25 phosphorylation. The shift was not paralleled by increased hsp25 co-localization with F-actin by confocal microscopy. CONCLUSIONS: The induction of hsp25 by IL-11 confers epithelial-specific cytoprotection that is independent of phosphorylation-dependent co-localization of hsp25 to F-actin, thereby contributing to the protective effects of IL-11 in models of intestinal epithelial injury.
Authors: Meegan Howlett; Heather V Chalinor; Jon N Buzzelli; Nhung Nguyen; Ian R van Driel; Katrina M Bell; James G Fox; Eva Dimitriadis; Trevelyan R Menheniott; Andrew S Giraud; Louise M Judd Journal: Gut Date: 2011-12-16 Impact factor: 23.059
Authors: Shien Hu; Yunwei Wang; Lev Lichtenstein; Yun Tao; Mark W Musch; Bana Jabri; Dionysios Antonopoulos; Erika C Claud; Eugene B Chang Journal: Am J Physiol Gastrointest Liver Physiol Date: 2010-09-23 Impact factor: 4.052
Authors: Shien Hu; Xiaorong Zhu; Joseph R Triggs; Yun Tao; Yunwei Wang; Lev Lichtenstein; Marc Bissonnette; Mark W Musch; Eugene B Chang Journal: Am J Physiol Gastrointest Liver Physiol Date: 2009-03-19 Impact factor: 4.052
Authors: Martina E Spehlmann; Carolin F Manthey; Sara M Dann; Elaine Hanson; Sukhman S Sandhu; Linus Y Liu; Farid K Abdelmalak; Michaela A Diamanti; Kristin Retzlaff; Jürgen Scheller; Stefan Rose-John; Florian R Greten; Jean Y J Wang; Lars Eckmann Journal: J Immunol Date: 2013-06-14 Impact factor: 5.422