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Multiplexed screening reveals how cancer-specific alternative polyadenylation shapes tumor growth in vivo

Author

Listed:
  • Austin M. Gabel

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center
    University of Washington
    University of Washington)

  • Andrea E. Belleville

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center
    University of Washington
    University of Washington)

  • James D. Thomas

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center)

  • Siegen A. McKellar

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center
    University of Washington
    University of Washington)

  • Taylor R. Nicholas

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center)

  • Toshihiro Banjo

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center)

  • Edie I. Crosse

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center)

  • Robert K. Bradley

    (Computational Biology Program, Public Health Sciences Division, Fred Hutchinson Cancer Center
    Basic Sciences Division, Fred Hutchinson Cancer Center
    University of Washington)

Abstract

Alternative polyadenylation (APA) is strikingly dysregulated in many cancers. Although global APA dysregulation is frequently associated with poor prognosis, the importance of most individual APA events is controversial simply because few have been functionally studied. Here, we address this gap by developing a CRISPR-Cas9-based screen to manipulate endogenous polyadenylation and systematically quantify how APA events contribute to tumor growth in vivo. Our screen reveals individual APA events that control mouse melanoma growth in an immunocompetent host, with concordant associations in clinical human cancer. For example, forced Atg7 3′ UTR lengthening in mouse melanoma suppresses ATG7 protein levels, slows tumor growth, and improves host survival; similarly, in clinical human melanoma, a long ATG7 3′ UTR is associated with significantly prolonged patient survival. Overall, our study provides an easily adaptable means to functionally dissect APA in physiological systems and directly quantifies the contributions of recurrent APA events to tumorigenic phenotypes.

Suggested Citation

  • Austin M. Gabel & Andrea E. Belleville & James D. Thomas & Siegen A. McKellar & Taylor R. Nicholas & Toshihiro Banjo & Edie I. Crosse & Robert K. Bradley, 2024. "Multiplexed screening reveals how cancer-specific alternative polyadenylation shapes tumor growth in vivo," Nature Communications, Nature, vol. 15(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-44931-x
    DOI: 10.1038/s41467-024-44931-x
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    References listed on IDEAS

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    1. Larry C. Cheng & Dinghai Zheng & Erdene Baljinnyam & Fangzheng Sun & Koichi Ogami & Percy Luk Yeung & Mainul Hoque & Chi-Wei Lu & James L. Manley & Bin Tian, 2020. "Widespread transcript shortening through alternative polyadenylation in secretory cell differentiation," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    2. Zheng Xia & Lawrence A. Donehower & Thomas A. Cooper & Joel R. Neilson & David A. Wheeler & Eric J. Wagner & Wei Li, 2014. "Dynamic analyses of alternative polyadenylation from RNA-seq reveal a 3′-UTR landscape across seven tumour types," Nature Communications, Nature, vol. 5(1), pages 1-13, December.
    3. Vikram Agarwal & Sereno Lopez-Darwin & David R. Kelley & Jay Shendure, 2021. "The landscape of alternative polyadenylation in single cells of the developing mouse embryo," Nature Communications, Nature, vol. 12(1), pages 1-12, December.
    4. Robert T. Manguso & Hans W. Pope & Margaret D. Zimmer & Flavian D. Brown & Kathleen B. Yates & Brian C. Miller & Natalie B. Collins & Kevin Bi & Martin W. LaFleur & Vikram R. Juneja & Sarah A. Weiss &, 2017. "In vivo CRISPR screening identifies Ptpn2 as a cancer immunotherapy target," Nature, Nature, vol. 547(7664), pages 413-418, July.
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