SEARCH

SEARCH BY CITATION

References

  • Bieker JJ (2001) Kruppel-like factors: three fingers in many pies. J Biol Chem, 276, 3435534358.
  • Black AR, Black JD and Azizkhan-Clifford J (2001) Sp1 and kruppel-like factor family of transcription factors in cell growth regulation and cancer. J Cell Physiol, 188, 143160.
  • Cook T and Urrutia R (2000) TIEG proteins join the Smads as TGF-β-regulated transcription factors that control pancreatic cell growth. Am J Physiol Gastrointest Liver Physiol, 278, G513G521.
  • Cook T, Gebelein B, Mesa K, Mladek A and Urrutia R (1998) Molecular cloning and characterization of TIEG2 reveals a new subfamily of transforming growth factor-β-inducible Sp1-like zinc finger-encoding genes involved in the regulation of cell growth. J Biol Chem, 273, 2592925936.
  • Cook T, Gebelein B and Urrutia R (1999a) Sp1 and its likes: biochemical and functional predictions for a growing family of zinc finger transcription factors. Ann N Y Acad Sci, 880, 94102.
  • Cook T, Gebelein B, Belal M, Mesa K and Urrutia R (1999b) Three conserved transcriptional repressor domains are a defining feature of the TIEG subfamily of Sp1-like zinc finger proteins. J Biol Chem, 274, 2950029504.
  • Cullen JJ, Mitros FA and Oberley LW (2003) Expression of antioxidant enzymes in diseases of the human pancreas: another link between chronic pancreatitis and pancreatic cancer. Pancreas, 26, 2327.
  • Drane P, Bravard A, Bouvard V and May E (2001) Reciprocal down-regulation of p53 and SOD2 gene expression—implication in p53 mediated apoptosis. Oncogene, 20, 430439.
  • Ellenrieder V, Zhang JS, Kaczynski J and Urrutia R (2002) Signaling disrupts mSin3A binding to the Mad1-like Sin3-interacting domain of TIEG2, an Sp1-like repressor. EMBO J, 21, 24512460.
  • Gebelein B, Fernandez-Zapico M, Imoto M and Urrutia R (1998) KRAB-independent suppression of neoplastic cell growth by the novel zinc finger transcription factor KS1. J Clin Invest, 102, 19111919.
  • Geiman DE, Ton-That H, Johnson JM and Yang VW (2000) Transactivation and growth suppression by the gut-enriched Kruppel-like factor (Kruppel-like factor 4) are dependent on acidic amino acid residues and protein-protein interaction. Nucleic Acids Res, 28, 11061113.
  • Gonzalez VM, Fuertes MA, Alonso C and Perez JM (2001) Is cisplatin-induced cell death always produced by apoptosis?. Mol Pharmacol, 59, 657663.
  • Hammer RE, Swift GH, Ornitz DM, Quaife CJ, Palmiter RD, Brinster RL and MacDonald RJ (1987) The rat elastase I regulatory element is an enhancer that directs correct cell specificity and developmental onset of expression in transgenic mice. Mol Cell Biol, 7, 29562967.
  • Kaczynski JA, Zhang JS, Ellenrieder V, Conley A, Duenes T, Kester H, van Der Burg B and Urrutia R (2001) The Sp1-like protein BTEB3 inhibits transcription via the basic transcription element box by interacting with mSin3A and HDAC-1 co-repressors and competing with Sp1. J Biol Chem, 276, 3674936756.
  • Kaczynski JA, Conley AA, Fernandez-Zapico M, Delgado SM, Zhang JS and Urrutia R (2002) Functional analysis of basic transcription element (BTE)-binding protein (BTEB) 3 and BTEB4, a novel Sp1-like protein, reveals a subfamily of transcriptional repressors for the BTE site of the cytochrome P4501A1 gene promoter. Biochem J, 366, 873882.
  • Kaczynski J, Cook T and Urrutia R (2003) Sp1- and Kruppel-like transcription factors. Genome Biol, 4, 206211.
  • Kang YJ, Chen Y and Epstein PN (1996) Suppression of doxorubicin cardiotoxicity by overexpression of catalase in the heart of transgenic mice. J Biol Chem, 271, 1261012616.
  • Lam EW, Zwacka R, Seftor EA, Nieva DR, Davidson BL, Engelhardt JF, Hendrix MJ, Oberley LW (1999) Effects of antioxidant enzyme overexpression on the invasive phenotype of hamster cheek pouch carcinoma cells. Free Radic Biol Med, 27, 572579.
  • Lutz MP, Sutor SL, Abraham RT and Miller LJ (1993) A role for cholecystokinin-stimulated protein tyrosine phosphorylation in regulated secretion by the pancreatic acinar cell. J Biol Chem, 268, 1111911124.
  • Marin M, Karis A, Visser P, Grosveld F and Philipsen S (1997) Transcription factor Sp1 is essential for early embryonic development but dispensable for cell growth and differentiation. Cell, 89, 619628.
  • Narla G et al. (2001) KLF6, a candidate tumor suppressor gene mutated in prostate cancer. Science, 294, 25632566.
  • Nenoi M, Ichimura S, Mita K, Yukawa O and Cartwright IL (2001) Regulation of the catalase gene promoter by Sp1, CCAAT-recognizing factors and a WT1/Egr-related factor in hydrogen peroxide-resistant HP100 cells. Cancer Res, 61, 58855894.
  • Perkins AC, Sharpe AH and Orkin SH (1995) Lethal β-thalassaemia in mice lacking the erythroid CACCC-transcription factor EKLF. Nature, 375, 318322.
  • Roussel MF, Ashmun RA, Sherr CJ, Eisenman RN and Ayer DE (1996) Inhibition of cell proliferation by the Mad1 transcriptional repressor. Mol Cell Biol, 16, 27962801.
  • Sharpless NE and DePinho RA (2002) p53: good cop/bad cop. Cell, 110, 912.
  • Tewari R, Gillemans N, Wijgerde M, Nuez B, von Lindern M, Grosveld F and Philipsen S (1998) Erythroid Kruppel-like factor (EKLF) is active in primitive and definitive erythroid cells and is required for the function of 5′HS3 of the β-globin locus control region. EMBO J, 17, 23342341.
  • Trinei M et al. (2002) A p53-p66Shc signalling pathway controls intracellular redox status, levels of oxidation-damaged DNA and oxidative stress-induced apoptosis. Oncogene, 21, 38723878.
  • Turner J and Crossley M (1998) Cloning and characterization of mCtBP2, a co-repressor that associates with basic Kruppel-like factor and other mammalian transcriptional regulators. EMBO J, 17, 51295140.
  • Turner J and Crossley M (1999) Mammalian Kruppel-like transcription factors: more than just a pretty finger. Trends Biochem Sci, 24, 236240.
  • Urrutia R, Conley AA, Ellenrieder V, Kaczynski J and DiMagno E (2002) Pancreatic cancer: cellular and molecular mechanisms underlying its development. In Encyclopedia of cancer. Elsevier Science, New York, NY, pp. 250258.
  • van Vliet J, Turner J and Crossley M (2000) Human Kruppel-like factor 8: a CACCC-box binding protein that associates with CtBP and represses transcription. Nucleic Acids Res, 28, 19551962.
  • Walker NI, Winterford CM, Williamson RM and Kerr JF (1993) Ethionine-induced atrophy of rat pancreas involves apoptosis of acinar cells. Pancreas, 8, 443449.
  • Xu Y, Porntadavity S and St Clair DK (2002) Transcriptional regulation of the human manganese superoxide dismutase gene: the role of specificity protein 1 (Sp1) and activating protein-2 (AP-2). Biochem J, 362, 401412.
  • Yen HC, Oberley TD, Vichitbandha S, Ho YS and St Clair DK (1996) The protective role of manganese superoxide dismutase against adriamycin-induced acute cardiac toxicity in transgenic mice. J Clin Invest, 98, 12531260.
  • Yochum GS and Ayer DE (2002) Role for the mortality factors MORF4, MRGX and MRG15 in transcriptional repression via associations with Pf1, mSin3A and Transducin-Like Enhancer of Split. Mol Cell Biol, 22, 78687876.
  • Zhang JS, Moncrieffe MC, Kaczynski J, Ellenrieder V, Prendergast FG and Urrutia R (2001) A conserved alpha-helical motif mediates the interaction of Sp1-like transcriptional repressors with the corepressor mSin3A. Mol Cell Biol, 21, 50415049.
  • Zhang W, Kadam S, Emerson BM and Bieker JJ (2001) Site-specific acetylation by p300 or CREB binding protein regulates erythroid Kruppel-like factor transcriptional activity via its interaction with the SWI-SNF complex. Mol Cell Biol, 21, 24132422.
  • Zwacka RM, Zhou W, Zhang Y, Darby CJ, Dudus L, Halldorson J, Oberley L and Engelhardt JF (1998) Redox gene therapy for ischemia/reperfusion injury of the liver reduces AP1 and NF-κB activation. Nat Med, 4, 698704.