Epigenetic remodeling regulates transcriptional changes between ovarian cancer and benign precursors
Kevin M. Elias, Megan M. Emori, Thomas Westerling, Henry Long, Anna Budina-Kolomets, Fugen Li, Emily MacDuffie, Michelle R. Davis, Alexander Holman, Brian Lawney, Matthew L. Freedman, John Quackenbush, Myles Brown, Ronny Drapkin
Kevin M. Elias, Megan M. Emori, Thomas Westerling, Henry Long, Anna Budina-Kolomets, Fugen Li, Emily MacDuffie, Michelle R. Davis, Alexander Holman, Brian Lawney, Matthew L. Freedman, John Quackenbush, Myles Brown, Ronny Drapkin
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Research Article Oncology

Epigenetic remodeling regulates transcriptional changes between ovarian cancer and benign precursors

Abstract

Regulation of lineage-restricted transcription factors has been shown to influence malignant transformation in several types of cancer. Whether similar mechanisms are involved in ovarian cancer pathogenesis is unknown. PAX8 is a nuclear transcription factor that controls the embryologic development of the Müllerian system, including the fallopian tubes. Recent studies have shown that fallopian tube secretory epithelial cells (FTSECs) give rise to the most common form of ovarian cancer, high-grade serous ovarian carcinomas (HGSOCs). We designed the present study in order to understand whether changes in gene expression between FTSECs and HGSOCs relate to alterations in PAX8 binding to chromatin. Using whole transcriptome shotgun sequencing (RNA-Seq) after PAX8 knockdown and ChIP-Seq, we show that FTSECs and HGSOCs are distinguished by marked reprogramming of the PAX8 cistrome. Genes that are significantly altered between FTSECs and HGSOCs are enriched near PAX8 binding sites. These sites are also near TEAD binding sites, and these transcriptional changes may be related to PAX8 interactions with the TEAD/YAP1 signaling pathway. These data suggest that transcriptional changes after transformation in ovarian cancer are closely related to epigenetic remodeling in lineage-specific transcription factors.

Authors

Kevin M. Elias, Megan M. Emori, Thomas Westerling, Henry Long, Anna Budina-Kolomets, Fugen Li, Emily MacDuffie, Michelle R. Davis, Alexander Holman, Brian Lawney, Matthew L. Freedman, John Quackenbush, Myles Brown, Ronny Drapkin

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Figure 5

Interaction between PAX8 and TEAD/YAP1.

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Interaction between PAX8 and TEAD/YAP1. (A) Most common secondary motif ...
(A) Most common secondary motif found near PAX8 binding sites corresponding to the TEAD motif. See also Supplemental Table 2 and Supplemental Figure 2. (B) An in situ proximity ligation assay (PLA) performed in KURAMOCHI cells showing the interaction between endogenous PAX8 and YAP1 protein and PAX8 and pan-TEAD protein. Each red dot represents a single interaction. Nuclei were counterstained blue with DAPI. Scale bar: 20 μm. Image magnification ×100. Inset shows ×400 magnification. The previously reported interaction between PAX8 and ep300 serves as a positive control. Cells with efficient PAX8 siRNA knockdown were used as a negative control. See also Supplemental Figure 3. Figures shown are representative of 3 independent experiments.