Skirmish between the mighty p53 protein and the complex retrovirus HIV-1

Comment on: Mukerjee R, et al. Cell Cycle 2010; 9(22):in press.     

Transcriptional activation of the MUC2 gene by p53

MUC2 is one of the major components of mucins that provide a protective barrier between epithelial surfaces and the gut lumen. We investigated possible alterations of MUC2 gene expression by p53 and p21(Sdi1/Waf1/Cip1) in a human colon cancer cell line, DLD-1, establishing subclones in which a tetracycline-regulatable promoter controls exogenous p53 and p21 expression. MUC2 mRNA more significantly increased in response to p53 than to p21. Unexpectedly, MUC2 expression was also induced in human osteosarcoma cells, U-2OS and Saos-2, by exogenous p53. We next performed a reporter assay to test the direct regulation of MUC2 gene expression by p53. Deletion and mutagenesis of the MUC2 promoter region showed that it contains two sites for transactivation by p53. Furthermore, an electrophoretic mobility shift assay indicated that p53 binds to those elements. We analyzed MUC2 expression in other cell types possessing a functional p53 after exposure to various forms of stress. In MCF7 breast cancer and A427 lung cancer cells, MUC2 expression was increased along with the endogenous p53 level by actinomycin D, UVC, and x-ray, but not in RERF-LC-MS lung cancer cells carrying a mutated p53. These results suggest that p53 directly activates the MUC2 gene in many cell types.     

Transcriptional regulation of the p73 gene, a member of the p53 family, by early growth response-1 (Egr-1)

To elucidate the regulatory mechanism of p73 gene expression, we analyzed the human p73 promoter and found three putative Egr-1-binding sites located upstream of exon 1 (-1728, -321, and -38). The Egr-1 responsiveness of these sites was analyzed by transient transfection assays using 5'- and 3'-serial truncations of the p73 promoter, subcloned in a CAT reporter vector. The functional significance of the region was further confirmed by an electrophoretic mobility shift assay using the Egr-1 protein synthesized in vitro and a [32P]-labeled middle site sequence, followed by competition with unlabeled wild-type or mutant oligonucleotides and supershift assays using an anti-Egr-1 antibody. When induced by either the nitric oxide donor NOC-18 or the PPARgamma agonist troglitazone, Egr-1 bound to the p73 promoter, as assessed by chromatin immunoprecipitation assays, accompanied by increased expression of p73. MTT assays revealed that cell growth was significantly inhibited on treating the cells with troglitazone. Overall, our results provide direct evidence that Egr-1 positively regulated p73 expression by binding to its promoter in vivo, consistent with Egr-1 and p73 being involved in p53-independent tumor suppression.     

p53: Guardian of reprogramming

The reprogramming of somatic cells to induced pluripotent stem (iPS) cells is one of the major discoveries of recent years. The development and application of patient specific iPS lines could potentially revolutionize cell-based therapy, facilitating the treatment of a wide range of diseases. Despite the numerous technological advancements in the field, an in-depth mechanistical understanding of the pathways involved in reprogramming is still lacking. Several groups have recently provided a mechanistical insight into the role of the p53 tumor suppressor pathway in reprogramming. The repercussions of these findings are profound and reveal an unexpected role of p53 as a "guardian of reprogramming", ensuring genomic integrity during reprogramming at the cost of a reduced efficiency of the process. Here we analyze the latest findings in the field and discuss their relevance for future applications of iPS cell technology.     

Shifting senescence into quiescence by turning up p53

Comment on: Leontieva OV, et al. Cell Cycle 2010; 9:4323–7.