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A distinct class of pan-cancer susceptibility genes revealed by an alternative polyadenylation transcriptome-wide association study

Author

Listed:
  • Hui Chen

    (Shenzhen Bay Laboratory)

  • Zeyang Wang

    (Shenzhen Bay Laboratory)

  • Lihai Gong

    (Shenzhen Bay Laboratory)

  • Qixuan Wang

    (Shenzhen Bay Laboratory)

  • Wenyan Chen

    (Shenzhen Bay Laboratory)

  • Jia Wang

    (Shenzhen Bay Laboratory)

  • Xuelian Ma

    (Shenzhen Bay Laboratory)

  • Ruofan Ding

    (Shenzhen Bay Laboratory)

  • Xing Li

    (Shenzhen Bay Laboratory)

  • Xudong Zou

    (Shenzhen Bay Laboratory)

  • Mireya Plass

    (L′Hospitalet de Llobregat
    P-CMR[C], L′Hospitalet de Llobregat
    Biomaterials and Nanomedicine (CIBER-BBN))

  • Cheng Lian

    (Shanghai Medical College of Fudan University)

  • Ting Ni

    (Fudan University)

  • Gong-Hong Wei

    (Shanghai Medical College of Fudan University
    University of Oulu)

  • Wei Li

    (The University of California)

  • Lin Deng

    (Shenzhen Bay Laboratory)

  • Lei Li

    (Shenzhen Bay Laboratory)

Abstract

Alternative polyadenylation plays an important role in cancer initiation and progression; however, current transcriptome-wide association studies mostly ignore alternative polyadenylation when identifying putative cancer susceptibility genes. Here, we perform a pan-cancer 3′ untranslated region alternative polyadenylation transcriptome-wide association analysis by integrating 55 well-powered (n > 50,000) genome-wide association studies datasets across 22 major cancer types with alternative polyadenylation quantification from 23,955 RNA sequencing samples across 7,574 individuals. We find that genetic variants associated with alternative polyadenylation are co-localized with 28.57% of cancer loci and contribute a significant portion of cancer heritability. We further identify 642 significant cancer susceptibility genes predicted to modulate cancer risk via alternative polyadenylation, 62.46% of which have been overlooked by traditional expression- and splicing- studies. As proof of principle validation, we show that alternative alleles facilitate 3′ untranslated region lengthening of CRLS1 gene leading to increased protein abundance and promoted proliferation of breast cancer cells. Together, our study highlights the significant role of alternative polyadenylation in discovering new cancer susceptibility genes and provides a strong foundational framework for enhancing our understanding of the etiology underlying human cancers.

Suggested Citation

  • Hui Chen & Zeyang Wang & Lihai Gong & Qixuan Wang & Wenyan Chen & Jia Wang & Xuelian Ma & Ruofan Ding & Xing Li & Xudong Zou & Mireya Plass & Cheng Lian & Ting Ni & Gong-Hong Wei & Wei Li & Lin Deng &, 2024. "A distinct class of pan-cancer susceptibility genes revealed by an alternative polyadenylation transcriptome-wide association study," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-46064-7
    DOI: 10.1038/s41467-024-46064-7
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