Enhancer Reprogramming Promotes Pancreatic Cancer Metastasis | Zendy

JaeSeok Roe | Zendy; ChangIl Hwang | Zendy; Tim D.D. Somerville | Zendy; Joseph P. Milazzo | Zendy; Eun Jung Lee | Zendy; Brandon Da Silva | Zendy; Laura Maiorino | Zendy; Hervé Tiriac | Zendy; C. Megan Young | Zendy; Koji Miyabayashi | Zendy; Dea Filippini | Zendy; Brianna Creighton | Zendy; Richard A. Burkhart | Zendy; Jonathan M. Buscaglia | Zendy; Edward Kim | Zendy; Jean L. Grem | Zendy; Audrey J. Lazenby | Zendy; James A. Grunkemeyer | Zendy; Michael A. Hollingsworth | Zendy; Paul M. Grandgenett | Zendy; Mikala Egeblad | Zendy; Youngkyu Park | Zendy; David A. Tuveson | Zendy; Christopher R. Vakoc | Zendy

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Enhancer Reprogramming Promotes Pancreatic Cancer Metastasis

Author(s) -

JaeSeok Roe,

ChangIl Hwang,

Tim D.D. Somerville,

Joseph P. Milazzo,

Eun Jung Lee,

Brandon Da Silva,

Laura Maiorino,

Hervé Tiriac,

C. Megan Young,

Koji Miyabayashi,

Dea Filippini,

Brianna Creighton,

Richard A. Burkhart,

Jonathan M. Buscaglia,

Edward Kim,

Jean L. Grem,

Audrey J. Lazenby,

James A. Grunkemeyer,

Michael A. Hollingsworth,

Paul M. Grandgenett,

Mikala Egeblad,

Youngkyu Park,

David A. Tuveson,

Christopher R. Vakoc

Publication year - 2017

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2017.07.007

Subject(s) - reprogramming , biology , enhancer , cancer research , metastasis , foxa1 , transcription factor , pancreatic cancer , enhancer rnas , microbiology and biotechnology , cancer , genetics , cell , gene

Pancreatic ductal adenocarcinoma (PDA) is one of the most lethal human malignancies, owing in part to its propensity for metastasis. Here, we used an organoid culture system to investigate how transcription and the enhancer landscape become altered during discrete stages of disease progression in a PDA mouse model. This approach revealed that the metastatic transition is accompanied by massive and recurrent alterations in enhancer activity. We implicate the pioneer factor FOXA1 as a driver of enhancer activation in this system, a mechanism that renders PDA cells more invasive and less anchorage-dependent for growth in vitro, as well as more metastatic in vivo. In this context, FOXA1-dependent enhancer reprogramming activates a transcriptional program of embryonic foregut endoderm. Collectively, our study implicates enhancer reprogramming, FOXA1 upregulation, and a retrograde developmental transition in PDA metastasis.

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