Role of far upstream element binding protein 1 in colonic epithelial disruption during dextran sulphate sodium-induced murine colitis

International Journal of Clinical and Experimental Pathology

Volumn 7, Issue 5, 2014, Pages 2019-2031

  Tang, Qiyun ^a   Xia, Weiwei ^b   Ji, Qianqian ^b   Ni, Runzhou ^b   Bai, Jian'an ^a   Li, Liren ^b   Qin, Yongwei ^b  

^a THE FIRST AFFILIATED HOSPITAL OF NANJING MEDICAL UNIVERSITY   (China)

^b NANTONG UNIVERSITY   (China)

Author keywords

Colitis; FBP1; Intestinal epithelial cells

Indexed keywords

DEXTRAN SULFATE; DNA BINDING PROTEIN; DNA HELICASE; FUBP PROTEIN, MOUSE; FUBP1 PROTEIN, HUMAN; TUMOR NECROSIS FACTOR ALPHA;

ANIMAL; APOPTOSIS; C57BL MOUSE; CELL CYCLE CHECKPOINT; CELL SURVIVAL; CHEMICALLY INDUCED; COLITIS; COLON; DISEASE MODEL; DOWN REGULATION; DRUG EFFECTS; EPITHELIUM CELL; FEMALE; GENETIC TRANSFECTION; GENETICS; HT 29 CELL LINE; HUMAN; INTESTINE MUCOSA; METABOLISM; MOUSE; PATHOLOGY; RNA INTERFERENCE; TIME;

ANIMALS; APOPTOSIS; CELL CYCLE CHECKPOINTS; CELL SURVIVAL; COLITIS; COLON; DEXTRAN SULFATE; DISEASE MODELS, ANIMAL; DNA HELICASES; DNA-BINDING PROTEINS; DOWN-REGULATION; EPITHELIAL CELLS; FEMALE; HT29 CELLS; HUMANS; INTESTINAL MUCOSA; MICE; MICE, INBRED C57BL; RNA INTERFERENCE; TIME FACTORS; TRANSFECTION; TUMOR NECROSIS FACTOR-ALPHA;

EID: 84902472086     PISSN: None     EISSN: 19362625     Source Type: Journal    
DOI: None     Document Type: Article

References (34)

1. Gross KJ and Pothoulakis C. Role of neuropeptides in inflammatory bowel isease. Inflamm Bowel Dis 2007; 13: 918-932.
2. Pastorelli L, De Salvo C, Mercado JR, Vecchi M and Pizarro TT. Central Role of the Gut Epithelial Barrier in the Pathogenesis of Chronic Intestinal Inflammation: Lessons Learned from Animal Models and Human Genetics. Front Immunol 2013; 4: 280.
3. Maldonado-Contreras AL and McCormick BA. Intestinal epithelial cells and their role in innate mucosal immunity. Cell Tissue Res 2011; 343: 5-12.
4. Iimura M, Nakamura T, Shinozaki S, Iizuka B, Inoue Y, Suzuki S and Hayashi N. Bax is downregulated in inflamed colonic mucosa of ulcerative colitis. Gut 2000; 47: 228-235.
5. Hagiwara C, Tanaka M and Kudo H. Increase in colorectal epithelial apoptotic cells in patients with ulcerative colitis ultimately requiring surgery. J Gastroenterol Hepatol 2002; 17: 758-764.
6. Di Sabatino A, Ciccocioppo R, Luinetti O, Ricevuti L, Morera R, Cifone MG, Solcia E and Corazza GR. Increased enterocyte apoptosis in inflamed areas of Crohn's disease. Dis Colon Rectum 2003; 46: 1498-1507.
7. Schulzke JD, Bojarski C, Zeissig S, Heller F, Gitter AH and Fromm M. Disrupted barrier function through epithelial cell apoptosis. Ann N Y Acad Sci 2006; 1072: 288-299.
8. Briata P, Forcales SV, Ponassi M, Corte G, Chen CY, Karin M, Puri PL and Gherzi R. p38-dependent phosphorylation of the mRNA decay-promoting factor KSRP controls the stability of select myogenic transcripts. Mol Cell 2005; 20: 891-903.
9. Dean JL, Sully G, Clark AR and Saklatvala J. The involvement of AU-rich element-binding proteins in p38 mitogen-activated protein kinase pathway-mediated mRNA stabilisation. Cell Signal 2004; 16: 1113-1121.
10. Duncan R, Collins I, Tomonaga T, Zhang T and Levens D. A unique transactivation sequence motif is found in the carboxyl-terminal domain of the single-strand-binding protein FBP. Mol Cell Biol 1996; 16: 2274-2282.
11. Avigan MI, Strober B and Levens D. A far upstream element stimulates c-myc expression in undifferentiated leukemia cells. J Biol Chem 1990; 265: 18538-18545.
12. Zheng Y and Miskimins WK. Far upstream element binding protein 1 activates translation of p27Kip1 mRNA through its internal ribosomal entry site. Int J Biochem Cell Biol 2011; 43: 1641-1648.
13. Huang PN, Lin JY, Locker N, Kung YA, Hung CT, Huang HI, Li ML and Shih SR. Far upstream element binding protein 1 binds the internal ribosomal entry site of enterovirus 71 and enhances viral translation and viral growth. Nucleic Acids Res 2011; 39: 9633-9648.
14. Rabenhorst U, Beinoraviciute-Kellner R, Bre-zniceanu ML, Joos S, Devens F, Lichter P, Rieker RJ, Trojan J, Chung HJ, Levens DL and Zornig M. Overexpression of the far upstream element binding protein 1 in hepatocellular carcinoma is required for tumor growth. Hepatology 2009; 50: 1121-1129.
15. Ding Z, Liu X, Liu Y, Zhang J, Huang X, Yang X, Yao L, Cui G and Wang D. Expression of far upstream element (FUSE) binding protein 1 in human glioma is correlated with c-Myc and cell proliferation. Mol Carcinog 2013; [Epub ahead of print.
16. Jang M, Park BC, Kang S, Chi SW, Cho S, Chung SJ, Lee SC, Bae KH and Park SG. Far upstream element-binding protein-1, a novel caspase substrate, acts as a cross-talker between apoptosis and the c-myc oncogene. Oncogene 2009; 28: 1529-1536.
17. Mayer L. The development of animal models of inflammatory bowel disease. Int Rev Immunol 2000; 19: 77-90.
18. Mizoguchi A. Animal models of inflammatory bowel disease. Prog Mol Biol Transl Sci 2012; 105: 263-320.
19. Liu Y, Chen Y, Lu X, Wang Y, Duan Y, Cheng C and Shen A. SCYL1BP1 modulates neurite outgrowth and regeneration by regulating the Mdm2/p53 pathway. Mol Biol Cell 2012; 23: 4506-4514.
20. Kim YH, Kwon HS, Kim DH, Shin EK, Kang YH, Park JH, Shin HK and Kim JK. 3,3'-diindolylmethane attenuates colonic inflammation and tumorigenesis in mice. Inflamm Bowel Dis 2009; 15: 1164-1173.
21. He L, Liu J, Collins I, Sanford S, O'Connell B, Benham CJ and Levens D. Loss of FBP function arrests cellular proliferation and extinguishes c-myc expression. EMBO J 2000; 19: 1034-1044.
22. Wang J and Fu YX. Tumor necrosis factor family members and inflammatory bowel disease. Immunol Rev 2005; 204: 144-155.
23. Araki Y, Mukaisyo K, Sugihara H, Fujiyama Y and Hattori T. Increased apoptosis and decreased proliferation of colonic epithelium in dextran sulfate sodium-induced colitis in mice. Oncol Rep 2010; 24: 869-874.
24. Tessner TG, Cohn SM, Schloemann S and Stenson WF. Prostaglandins prevent decreased epithelial cell proliferation associated with dextran sodium sulfate injury in mice. Gastroen-terology 1998; 115: 874-882.
25. Goretsky T, Dirisina R, Sinh P, Mittal N, Managlia E, Williams DB, Posca D, Ryu H, Katzman RB and Barrett TA. p53 mediates TNF-induced epithelial cell apoptosis in IBD. Am J Pathol 2012; 181: 1306-1315.
26. Wierstra I and Alves J. The c-myc promoter: still MysterY and challenge. Adv Cancer Res 2008; 99: 113-333.
27. de Nigris F, Sica V, Herrmann J, Condorelli G, Chade AR, Tajana G, Lerman A, Lerman LO and Napoli C. c-Myc oncoprotein: cell cycle-related events and new therapeutic challenges in cancer and cardiovascular diseases. Cell Cycle 2003; 2: 325-328.
28. Morrish F, Isern N, Sadilek M, Jeffrey M and Hockenbery DM. c-Myc activates multiple metabolic networks to generate substrates for cell-cycle entry. Oncogene 2009; 28: 2485-2491.
29. Chung HJ and Levens D. c-myc expression: keep the noise down! Mol Cells 2005; 20: 157-166.
30. Heikkila R, Schwab G, Wickstrom E, Loke SL, Pluznik DH, Watt R and Neckers LM. A c-myc antisense oligodeoxynucleotide inhibits entry into S phase but not progress from G0 to G1. Nature 1987; 328: 445-449.
31. Holt JT, Redner RL and Nienhuis AW. An oligomer complementary to c-myc mRNA inhibits proliferation of HL-60 promyelocytic cells and induces differentiation. Mol Cell Biol 1988; 8: 963-973.
32. Xiao J, Zhang Z, Chen GG, Zhang M, Ding Y, Fu J, Li M and Yun JP. Nucleophosmin/B23 interacts with p21WAF1/CIP1 and contributes to its stability. Cell Cycle 2009; 8: 889-895.
33. Abbas T and Dutta A. p21 in cancer: intricate networks and multiple activities. Nat Rev Cancer 2009; 9: 400-414.
34. Inoue T, Murano M, Kuramoto T, Ishida K, Kawakami K, Abe Y, Morita E, Murano N, Toshina K, Nishikawa T, Maemura K, Shimamoto C, Hirata I, Katsu K and Higuchi K. Increased proliferation of middle to distal colonic cells during colorectal carcinogenesis in experimental murine ulcerative colitis. Oncol Rep 2007; 18: 1457-1462.