Transcription factors in the Activating-enhancer-binding Protein 2 (TFAP2) family redundantly regulate gene expression in melanocytes and melanoma. Previous ChIP-seq experiments indicate that TFAP2A and Microphthalmia-associated Transcription Factor (MITF), a master regulator in these cell types, co-activate enhancers of genes promoting pigmentation. Evidence that TFAP2 paralogs can serve as pioneer factors supports the possibility that TFAP2 facilitates MITF binding at co-bound enhancers, although this model has not been tested. In addition, while MITF and TFAP2 paralogs both appear to repress genes that promote invasion, whether they do so by co-repressing enhancers is unknown. To address these questions we evaluated gene expression, chromatin accessibility, TFAP2A and MITF binding, and chromatin marks characteristic of active enhancers in SK-MEL-28 melanoma cells that were wild-type or deleted of the two TFAP2 paralogs with highest expression, TFAP2A and TFAP2C (i.e., TFAP2-KO cells). Integrated analyses revealed distinct subsets of enhancers bound by TFAP2A in WT cells that are inactivated and activated, respectively, in TFAP2-KO cells. At enhancers bound by both MITF and TFAP2A, MITF is generally lost in TFAP2A/TFAP2C double mutants, but not vice versa, implying TFAP2 pioneers chromatin access for MITF. There is a strong correlation between the sets of genes inhibited by MITF and TFAP2, although we did not find evidence that TFAP2 and MITF inhibit enhancers cooperatively. The findings imply that MITF and TFAP2 paralogs cooperatively affect the melanoma phenotype.
The selective post-translational processing of transcription factor Nrf1 yields distinct isoforms that dictate its ability to differentially regulate gene expression
