Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Conditional activation of Notch in squamous cells activates a context-specific gene expression program through lineage-specific regulatory elements. IER5 is a direct Notch-regulated gene and required for Notch-induced differentiation of squamous carcinoma cells.

Project description:Conditional activation of Notch in squamous cells activates a context-specific gene expression program through lineage-specific regulatory elements. IER5 is a direct Notch-regulated gene and required for Notch-induced differentiation of squamous carcinoma cells.

Project description:Conditional activation of Notch in squamous cells activates a context-specific gene expression program through lineage-specific regulatory elements. IER5 is a direct Notch-regulated gene and required for Notch-induced differentiation of squamous carcinoma cells.

Project description:IER5 is required for Notch-mediated induction of squamous cell differentiation

Project description:IER5 is required for Notch-mediated induction of squamous cell differentiation [RNA-seq]

Project description:IER5 is required for Notch-mediated induction of squamous cell differentiation [H3K27ac ChIP-seq]

Project description:IER5 is required for Notch-mediated induction of squamous cell differentiation [ChIP-seq RBPJ & MAML1]

Project description:While numerous cell-intrinsic processes are known to play decisive roles in chemotherapeutic response, relatively little is known about the impact of the tumor microenvironment on therapeutic outcome. Here, we use a well-established mouse model of Burkitt's lymphoma to show that paracrine factors in the tumor microenvironment modulate lymphoma cell survival following the administration of genotoxic chemotherapy. Specifically, IL-6 and Timp-1 are released in the thymus in response to DNA damage, creating a "chemo-resistant niche" that promotes the survival of a minimal residual tumor burden and serves as a reservoir for eventual tumor relapse. Notably, IL-6 is released acutely from thymic endothelial cells in a p38-dependent manner following genotoxic stress, and this acute secretory response precedes the gradual induction of senescence in tumor-associated stromal cells. Thus, conventional chemotherapies can induce tumor regression while simultaneously eliciting stress responses that protect subsets of tumor cells in select anatomical locations from drug action.

Project description:DNA endonuclease CtIP is involved in both DNA double-strand break (DSB) repair and transcriptional repression/activation. The cyclin-dependent kinase inhibitor P21, which is induced at transcription level in response to a variety of stresses, controls G?/S transition. In this report, we found that CtIP bound to the P21 promoter, and this binding was enhanced in response to DNA damage. Concomitantly, ectopic expression of CtIP increased P21 promoter activity, and this increment was enhanced upon camptothecin treatment. Conversely, DNA damage failed to induce P21 gene expression in CtIP-deficient cells. Taken together, our data demonstrate that CtIP is required for DNA damage-induced P21 induction.