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. 2024 Oct;26(10):1759-1772.
doi: 10.1038/s41556-024-01498-5. Epub 2024 Sep 4.

Wnt-deficient and hypoxic environment orchestrates squamous reprogramming of human pancreatic ductal adenocarcinoma

Hiroki Tamagawa  1   2   3 Masayuki Fujii  4   5 Kazuhiro Togasaki  1   2   3 Takashi Seino  1   3 Shintaro Kawasaki  1   2   3 Ai Takano  1   2 Kohta Toshimitsu  1   3 Sirirat Takahashi  1   2 Yuki Ohta  1   2 Mami Matano  1   2 Kenta Kawasaki  1   2   3 Yujiro Machida  1   2   3 Shigeki Sekine  6 Akihito Machinaga  7 Ken Sasai  7 Yuzo Kodama  8 Nobuyuki Kakiuchi  9   10 Seishi Ogawa  9 Tomonori Hirano  9   10 Hiroshi Seno  10 Minoru Kitago  11 Yuko Kitagawa  11 Eisuke Iwasaki  3 Takanori Kanai  3 Toshiro Sato  12   13   14
Affiliations

Wnt-deficient and hypoxic environment orchestrates squamous reprogramming of human pancreatic ductal adenocarcinoma

Hiroki Tamagawa et al. Nat Cell Biol. 2024 Oct.

Abstract

Human pancreatic cancer is characterized by the molecular diversity encompassing native duct-like and squamous cell-like identities, but mechanisms underlying squamous transdifferentiation have remained elusive. To comprehensively capture the molecular diversity of human pancreatic cancer, we here profiled 65 patient-derived pancreatic cancer organoid lines, including six adenosquamous carcinoma lines. H3K27me3-mediated erasure of the ductal lineage specifiers and hijacking of the TP63-driven squamous-cell programme drove squamous-cell commitment, providing survival benefit in a Wnt-deficient environment and hypoxic conditions. Gene engineering of normal pancreatic duct organoids revealed that GATA6 loss and a Wnt-deficient environment, in concert with genetic or hypoxia-mediated inactivation of KDM6A, facilitate squamous reprogramming, which in turn enhances environmental fitness. EZH2 inhibition counterbalanced the epigenetic bias and curbed the growth of adenosquamous cancer organoids. Our results demonstrate how an adversarial microenvironment dictates the molecular and histological evolution of human pancreatic cancer and provide insights into the principles and significance of lineage conversion in human cancer.

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