Role of gut-enriched Krüppel-like factor in colonic cell growth and differentiation.

Cancer cells differ from normal cells in many aspects, including hyperproliferation and loss of differentiation. Recent research has focused on the role of transcription factors in regulating abnormal cell growth. Gut-enriched Krüppel-like factor (GKLF) is a newly identified eukaryotic zinc finger protein expressed extensively in the gastrointestinal tract. In the current study, we demonstrated that GKLF mRNA levels were significantly decreased in the dysplastic epithelium of the colon, including adenomatous polyp and cancer. GKLF immunostains in the normal colon were higher at the surface epithelium and gradually decreased toward the crypt, but this gradient was not present in the adenomatous and cancerous mucosa. Constitutive overexpression of GKLF DNA in a human colonic adenocarcinoma cell line (HT-29) decreased [(3)H]thymidine incorporation, whereas suppression of GKLF gene increased DNA synthesis, indicating that downregulation of the GKLF gene might contribute to cellular hyperproliferation. Cyclin D1 (CD1) protein level and CD1-associated kinase activity were decreased in HT-29 cell overexpressed GKLF cDNA, and CD1 promoter activity was profoundly suppressed by GKLF. When HT-29 cells were cultured in the presence of sodium butyrate, GKLF mRNA levels increased as cells acquired more differentiated phenotypes. These results suggest that GKLF plays an important role in regulating cell growth and differentiation in the colonic epithelium and that downregulation of GKLF expression may cause colonic cells to become hyperproliferative. Furthermore, GKLF appears to be a transcriptional repressor of the CD1 gene.

[1]  L. Hartwell,et al.  Checkpoints: controls that ensure the order of cell cycle events. , 1989, Science.

[2]  P. Chomczyński,et al.  Single-step method of RNA isolation by acid guanidinium thiocyanate-phenol-chloroform extraction. , 1987, Analytical biochemistry.

[3]  S. Ben‐Sasson,et al.  Identification of programmed cell death in situ via specific labeling of nuclear DNA fragmentation , 1992, The Journal of cell biology.

[4]  J. Bieker,et al.  Analyses of beta-thalassemia mutant DNA interactions with erythroid Krüppel-like factor (EKLF), an erythroid cell-specific transcription factor. , 1994, The Journal of biological chemistry.

[5]  Hong Wang,et al.  Human EZF, a Krüppel-like Zinc Finger Protein, Is Expressed in Vascular Endothelial Cells and Contains Transcriptional Activation and Repression Domains* , 1998, The Journal of Biological Chemistry.

[6]  V. Sukhatme The Egr transcription factor family: from signal transduction to kidney differentiation. , 1992, Kidney international.

[7]  L. Augenlicht,et al.  Potentiation by specific short-chain fatty acids of differentiation and apoptosis in human colonic carcinoma cell lines. , 1994, Cancer research.

[8]  J. Ruppert,et al.  Oncogene expression cloning by retroviral transduction of adenovirus E1A-immortalized rat kidney RK3E cells: transformation of a host with epithelial features by c-MYC and the zinc finger protein GKLF. , 1999, Cell growth & differentiation : the molecular biology journal of the American Association for Cancer Research.

[9]  M. Wolfe,et al.  Regulation of glucose-dependent insulinotropic peptide gene expression by a glucose meal. , 1994, The American journal of physiology.

[10]  K. Kinzler,et al.  The multistep nature of cancer. , 1993, Trends in genetics : TIG.

[11]  Chris Albanese,et al.  Inhibition of Cyclin D1 Kinase Activity Is Associated with E2F-Mediated Inhibition of Cyclin D1 Promoter Activity through E2F and Sp1 , 1998, Molecular and Cellular Biology.

[12]  L. Lau,et al.  Expression of a set of growth-related immediate early genes in BALB/c 3T3 cells: coordinate regulation with c-fos or c-myc. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[13]  A. Rustgi,et al.  Transactivation of the Human Keratin 4 and Epstein-Barr Virus ED-L2 Promoters by Gut-enriched Krüppel-like Factor* , 1998, The Journal of Biological Chemistry.

[14]  S. Reed,et al.  G1-specific cyclins: in search of an S-phase-promoting factor. , 1991, Trends in genetics : TIG.

[15]  U. K. Laemmli,et al.  Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.

[16]  Charles J. Sherr,et al.  Mammalian G1 cyclins , 1993, Cell.

[17]  K. Kaestner,et al.  Expression of the gut‐enriched Krüppel‐like factor gene during development and intestinal tumorigenesis , 1997, FEBS letters.

[18]  L. Hartwell,et al.  Cell cycle control and cancer. , 1994, Science.

[19]  M. M. Bradford A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding. , 1976, Analytical biochemistry.

[20]  A. Schermer,et al.  Alkaline phosphatase in HT-29, a human colon cancer cell line: influence of sodium butyrate and hyperosmolality. , 1981, Archives of biochemistry and biophysics.

[21]  J. Bieker,et al.  The erythroid Krüppel-like factor transactivation domain is a critical component for cell-specific inducibility of a beta-globin promoter , 1995, Molecular and cellular biology.

[22]  J. B. Williams,et al.  Growth factor-induced delayed early response genes , 1992, Molecular and cellular biology.

[23]  J. M. Shields,et al.  Identification and Characterization of a Gene Encoding a Gut-enriched Krüppel-like Factor Expressed during Growth Arrest* , 1996, The Journal of Biological Chemistry.

[24]  Michael F. Seldin,et al.  A Gene for a Novel Zinc-finger Protein Expressed in Differentiated Epithelial Cells and Transiently in Certain Mesenchymal Cells* , 1996, The Journal of Biological Chemistry.

[25]  J. Lingrel,et al.  Isolation of a gene encoding a functional zinc finger protein homologous to erythroid Krüppel-like factor: identification of a new multigene family , 1995, Molecular and cellular biology.

[26]  J. Bieker,et al.  A novel, erythroid cell-specific murine transcription factor that binds to the CACCC element and is related to the Krüppel family of nuclear proteins , 1993, Molecular and cellular biology.