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Locally acting transcription factors regulate p53-dependent cis-regulatory element activity

Allison N. Catizone, Gizem Karsli Uzunbas, Petra Celadova, Sylvia Kuang, Daniel Bose, Morgan A. Sammons

2020Nucleic Acids Research28 citationsDOIOpen Access PDF

Abstract

The master tumor suppressor p53 controls transcription of a wide-ranging gene network involved in apoptosis, cell cycle arrest, DNA damage repair, and senescence. Recent studies revealed pervasive binding of p53 to cis-regulatory elements (CREs), which are non-coding segments of DNA that spatially and temporally control transcription through the combinatorial binding of local transcription factors. Although the role of p53 as a strong trans-activator of gene expression is well known, the co-regulatory factors and local sequences acting at p53-bound CREs are comparatively understudied. We designed and executed a massively parallel reporter assay (MPRA) to investigate the effect of transcription factor binding motifs and local sequence context on p53-bound CRE activity. Our data indicate that p53-bound CREs are both positively and negatively affected by alterations in local sequence context and changes to co-regulatory TF motifs. Our data suggest p53 has the flexibility to cooperate with a variety of transcription factors in order to regulate CRE activity. By utilizing different sets of co-factors across CREs, we hypothesize that global p53 activity is guarded against loss of any one regulatory partner, allowing for dynamic and redundant control of p53-mediated transcription.

Topics & Concepts

BiologyTranscription factorGeneticsTranscription (linguistics)GeneRegulatory sequenceActivator (genetics)RepressorEnhancerCell biologyDNA binding siteResponse elementDNA-binding proteinRegulation of gene expressionPromoterGene expressionPhilosophyLinguisticsCancer-related Molecular PathwaysGenomics and Chromatin DynamicsRNA Research and Splicing