Coordinate Regulation of the Gel-forming Mucin Genes at Chromosome 11p15.5

Four of the genes that encode gel-forming mucins, which are major components of the mucus layer protecting many epithelial surfaces, are clustered at chromosome 11p15.5 and show both cell- and tissue-specific expression patterns. We aimed to determine whether the individual genes were coordinately regulated by mechanisms involving higher order chromatin structure. CCCTC-binding factor (CTCF) sites were predicted in silico and CTCF occupancy then evaluated by chromatin immunoprecipitation. CTCF was found at many sites across the gene cluster, and its binding was correlated with mucin gene expression. Next, siRNA-mediated depletion of CTCF was shown to increase MUC2 expression in A549 lung carcinoma cells and both MUC6 and MUC5AC expression in LS180 colon carcinoma cells. These changes correlated with loss of CTCF binding at multiple sites, although others retained occupancy. In cells actively expressing the mucins, the gene cluster was shown by chromosome conformation capture to form looped three-dimensional structures with direct interactions between the MUC2 promoter region, regions 30 kb 5′ to it, close to the MUC6 promoter and others near the 3′ end of MUC5AC, >170 kb away. Finally, to demonstrate the importance of CTCF binding to mucin gene expression, Calu-3 lung carcinoma cells were exposed to lipopolysaccharide (LPS). LPS increased the expression of MUC2 and MUC5AC and reduced MUC5B. CTCF occupancy was concurrently depleted at specific binding sites close to these genes. These data suggest that CTCF binding and cell type-specific long-range interactions across the 11p15.5 gene cluster are critical mechanisms for coordinating gel-forming mucin gene expression.     

Multiple response elements and differential p53 binding control Perp expression during apoptosis

The p53 tumor suppressor gene responds to cellular stress by activating either cell cycle arrest or apoptosis. A growing number of target genes involved in each of these pathways have been identified. However, the mechanism by which the apoptosis versus arrest decision is made remains to be elucidated. Perp is a proapoptotic target gene of p53 expressed to high levels in apoptotic cells compared with those undergoing cell cycle arrest. This pattern of expression is unusual among p53 target genes, many of which are induced to similar levels during arrest and apoptosis. Here, we describe the regulation of the Perp gene by p53 through at least three response elements in the Perp promoter and first intron. These sites are occupied in vivo in E1A-expressing mouse embryo fibroblasts undergoing apoptosis but not cell cycle arrest, in contrast to the p21 5' response element, which is occupied during both. The apoptosis-deficient p53 point mutant, p53V143A, displays a selective deficit in binding to the Perp elements, demonstrating that p53 can distinguish between Perp and p21 at the level of DNA binding. These results provide mechanistic insight into the selective expression of Perp during apoptosis and may provide a useful model for studying the p53-dependent cell cycle arrest versus apoptosis decision.     

CCCTC-binding factor controls its own nuclear transport via regulating the expression of importin 13

CCCTC-binding factor (CTCF), a multivalent zinc-finger protein, is involved in different aspects of regulation including promoter activation or repression, gene silencing, chromatin insulation, gene imprinting, X-chromosome inactivation, cell growth or differentiation and tumor genesis. However, the molecular mechanisms of CTCF nuclear import remains unclear. In this study, we showed that the expression of CTCF influenced the intracellular distribution of itself, which might go through transport receptor - import 13 (IPO13). We further confirmed that there is a CTCF target site in ipo13 -774∼-573 bp promoter region and CTCF regulates the expression of IPO13. Besides, GST pull-down and Co-IP experiments demonstrated that CTCF interacts with IPO13. Immunofluorescence staining showed that IPO13 influenced intracellular distribution of CTCF. In all, we conclude that CTCF regulates the expression of IPO13, which, in turn, mediates the nuclear import of CTCF.