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Translatome analysis reveals altered serine and glycine metabolism in T-cell acute lymphoblastic leukemia cells

Author

Listed:
  • Kim R. Kampen

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Laura Fancello

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Tiziana Girardi

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Gianmarco Rinaldi

    (VIB-KU Leuven Center for Cancer Biology
    KU Leuven and Leuven Cancer Institute (LKI))

  • Mélanie Planque

    (VIB-KU Leuven Center for Cancer Biology
    KU Leuven and Leuven Cancer Institute (LKI))

  • Sergey O. Sulima

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Fabricio Loayza-Puch

    (German Cancer Research Center (DKFZ))

  • Benno Verbelen

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Stijn Vereecke

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Jelle Verbeeck

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Joyce Op de Beeck

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Jonathan Royaert

    (KU Leuven and Leuven Cancer Institute (LKI))

  • Pieter Vermeersch

    (University Hospitals Leuven)

  • David Cassiman

    (University Hospitals Leuven)

  • Jan Cools

    (VIB-KU Leuven Center for Cancer Biology
    KU Leuven and Leuven Cancer Institute (LKI))

  • Reuven Agami

    (Erasmus Medical Center
    The Netherlands Cancer Institute)

  • Mark Fiers

    (VIB-KU Leuven Center for Brain & Disease Research)

  • Sarah-Maria Fendt

    (VIB-KU Leuven Center for Cancer Biology
    KU Leuven and Leuven Cancer Institute (LKI))

  • Kim De Keersmaecker

    (KU Leuven and Leuven Cancer Institute (LKI))

Abstract

Somatic ribosomal protein mutations have recently been described in cancer, yet their impact on cellular transcription and translation remains poorly understood. Here, we integrate mRNA sequencing, ribosome footprinting, polysomal RNA sequencing and mass spectrometry datasets from a mouse lymphoid cell model to characterize the T-cell acute lymphoblastic leukemia (T-ALL) associated ribosomal RPL10 R98S mutation. Surprisingly, RPL10 R98S induces changes in protein levels primarily through transcriptional rather than translation efficiency changes. Phosphoserine phosphatase (PSPH), encoding a key serine biosynthesis enzyme, was the only gene with elevated transcription and translation leading to protein overexpression. PSPH upregulation is a general phenomenon in T-ALL patient samples, associated with elevated serine and glycine levels in xenograft mice. Reduction of PSPH expression suppresses proliferation of T-ALL cell lines and their capacity to expand in mice. We identify ribosomal mutation driven induction of serine biosynthesis and provide evidence supporting dependence of T-ALL cells on PSPH.

Suggested Citation

  • Kim R. Kampen & Laura Fancello & Tiziana Girardi & Gianmarco Rinaldi & Mélanie Planque & Sergey O. Sulima & Fabricio Loayza-Puch & Benno Verbelen & Stijn Vereecke & Jelle Verbeeck & Joyce Op de Beeck , 2019. "Translatome analysis reveals altered serine and glycine metabolism in T-cell acute lymphoblastic leukemia cells," Nature Communications, Nature, vol. 10(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10508-2
    DOI: 10.1038/s41467-019-10508-2
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    Cited by:

    1. Wenya Ma & Yanan Tian & Leping Shi & Jing Liang & Qimeng Ouyang & Jianglong Li & Hongyang Chen & Hongyue Sun & Haoyu Ji & Xu Liu & Wei Huang & Xinlu Gao & Xiaoyan Jin & Xiuxiu Wang & Yining Liu & Yang, 2024. "N-Acetyltransferase 10 represses Uqcr11 and Uqcrb independently of ac4C modification to promote heart regeneration," Nature Communications, Nature, vol. 15(1), pages 1-19, December.

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