Differential expression of the klf6 tumor suppressor gene upon cell damaging treatments in cancer cells

The mammalian Krüppel-like factor 6 (KLF6) is involved in critical roles such as growth-related signal transduction, cell proliferation and differentiation, development, apoptosis and angiogenesis. Also, KLF6 appears to be an emerging key factor during cancer development and progression. Its expression is thoroughly regulated by several cell-damaging stimuli. DNA damaging agents at lethal concentrations induce a p53-independent down-regulation of the klf6 gene. To investigate the impact of external stimuli on human klf6 gene expression, its mRNA level was analyzed using a cancer cell line profiling array system, consisting in an assortment of immobilized cDNAs from multiple cell lines treated with several cell-damaging agents at growth inhibitory concentrations (IC(50)). Cell-damaging agents affected the klf6 expression in 62% of the cDNA samples, though the expression pattern was not dependent on the cell origin type. Interestingly, significant differences (p<0.0001) in KLF6 mRNA levels were observed depending on the cellular p53 status upon cell damage. KLF6 expression was significantly increased in 63% of p53-deficient cells (122/195). Conversely, KLF6 mRNA level decreased nearly 4 fold in more than 70% of p53+/+ cells. In addition, klf6 gene promoter activity was down-regulated by DNA damaging agents in cells expressing the functional p53 protein whereas it was moderately increased in the absence of functional p53. Consistent results were obtained for the endogenous KLF6 protein level. Results indicate that human klf6 gene expression is responsive to external cell damage mediated by IC(50) concentrations of physical and chemical stimuli in a p53-dependent manner. Most of these agents are frequently used in cancer therapy. Induction of klf6 expression in the absence of functional p53 directly correlates with cell death triggered by these compounds, whereas it is down-regulated in p53+/+ cells. Hence, klf6 expression level could represent a valuable marker for the efficiency of cell death upon cancer treatment.     

Kruppel-like factor 4 mediates p53-dependent G1/S cell cycle arrest in response to DNA damage

The tumor suppressor p53 is required for the maintenance of genomic integrity following DNA damage. One mechanism by which p53 functions is to induce a block in the transition between the G(1) and S phase of the cell cycle. Previous studies indicate that the Krüppel-like factor 4 (KLF4) gene is activated following DNA damage and that such activation depends on p53. In addition, enforced expression of KLF4 causes G(1)/S arrest. The present study examines the requirement of KLF4 in mediating the p53-dependent cell cycle arrest process in response to DNA damage. We show that the G(1) population of a colon cancer cell line, HCT116, that is null for the p53 alleles (-/-) was abolished following gamma irradiation compared with cells with wild-type p53 (+/+). Conditional expression of KLF4 in irradiated HCT116 p53-/- cells restored the G(1) cell population to a level similar to that seen in irradiated HCT116 p53+/+ cells. Conversely, treatment of HCT116 p53+/+ cells with small interfering RNA (siRNA) specific for KLF4 significantly reduced the number of cells in the G(1) phase following gamma irradiation compared with the untreated control or those treated with a nonspecific siRNA. In each case the increase or decrease in KLF4 level because of conditional induction or siRNA inhibition, respectively, was accompanied by an increase or decrease in the level of p21(WAF1/CIP1). Results of our study indicate that KLF4 is an essential mediator of p53 in controlling G(1)/S progression of the cell cycle following DNA damage.