Marta Milan scite author profile

Differentiation of normal and tumor cells is controlled by regulatory networks enforced by lineage‐determining transcription factors (TFs). Among them, TFs such as FOXA1/2 bind naïve chromatin and induce its accessibility, thus establishing new gene regulatory networks. Pancreatic ductal adenocarcinoma (PDAC) is characterized by the coexistence of well‐ and poorly differentiated cells at all stages of disease. How the transcriptional networks determining such massive cellular heterogeneity are established remains to be determined. We found that FOXA2, a TF controlling pancreas specification, broadly contributed to the cis‐regulatory networks of PDACs. Despite being expressed in both well‐ and poorly differentiated PDAC cells, FOXA2 displayed extensively different genomic distributions and controlled distinct gene expression programs. Grade‐specific functions of FOXA2 depended on its partnership with TFs whose expression varied depending on the differentiation grade. These data suggest that FOXA2 contributes to the regulatory networks of heterogeneous PDAC cells via interactions with alternative partner TFs.

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Co-optation of Tandem DNA Repeats for the Maintenance of Mesenchymal Identity

Balestrieri

Alfarano

Milan

et al. 2018

Cell

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Tandem repeats (TRs) are generated by DNA replication errors and retain a high level of instability, which in principle would make them unsuitable for integration into gene regulatory networks. However, the appearance of DNA sequence motifs recognized by transcription factors may turn TRs into functional cis-regulatory elements, thus favoring their stabilization in genomes. Here, we show that, in human cells, the transcriptional repressor ZEB1, which promotes the maintenance of mesenchymal features largely by suppressing epithelial genes and microRNAs, occupies TRs harboring dozens of copies of its DNA-binding motif within genomic loci relevant for maintenance of epithelial identity. The deletion of one such TR caused quasi-mesenchymal cancer cells to reacquire epithelial features, partially recapitulating the effects of ZEB1 gene deletion. These data demonstrate that the high density of identical motifs in TRs can make them suitable platforms for recruitment of transcriptional repressors, thus promoting their exaptation into pre-existing cis-regulatory networks.

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Pancreatic Cancer Cells Require the Transcription Factor MYRF to Maintain ER Homeostasis

et al. 2020

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Marta Milan

FOXA 2 controls the cis ‐regulatory networks of pancreatic cancer cells in a differentiation grade‐specific manner

Co-optation of Tandem DNA Repeats for the Maintenance of Mesenchymal Identity

Pancreatic Cancer Cells Require the Transcription Factor MYRF to Maintain ER Homeostasis

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