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Cellular origin and clonal evolution of human dedifferentiated liposarcoma

Author

Listed:
  • Nadège Gruel

    (Institut Curie Research Center
    Institut Curie Research Center)

  • Chloé Quignot

    (Institut Curie Research Center)

  • Laëtitia Lesage

    (Institut Curie Hospital)

  • Sophie El Zein

    (Institut Curie Hospital)

  • Sylvie Bonvalot

    (Institut Curie Hospital)

  • Dimitri Tzanis

    (Institut Curie Hospital)

  • Khadija Ait Rais

    (Institut Curie Hospital)

  • Fabien Quinquis

    (Institut Curie Hospital)

  • Bastien Manciot

    (Institut Curie Research Center)

  • Julien Vibert

    (Institut Curie Research Center
    Université Paris-Saclay)

  • Nadine El Tannir

    (Institut Curie Research Center)

  • Ahmed Dahmani

    (PSL Research University, Institut Curie Research Center)

  • Héloïse Derrien

    (PSL Research University, Institut Curie Research Center)

  • Didier Decaudin

    (PSL Research University, Institut Curie Research Center
    Institut Curie Hospital)

  • Ivan Bièche

    (Institut Curie Hospital)

  • Laura Courtois

    (Institut Curie Hospital)

  • Odette Mariani

    (Institut Curie Hospital)

  • Laëtitia K. Linares

    (Université de Montpellier)

  • Laurie Gayte

    (Université de Montpellier)

  • Sylvain Baulande

    (PSL Research University, Institut Curie)

  • Joshua J. Waterfall

    (Institut Curie Research Center
    Institut Curie Research Center)

  • Olivier Delattre

    (Institut Curie Research Center
    Institut Curie Hospital
    Institut Curie Hospital)

  • Gaëlle Pierron

    (Institut Curie Hospital)

  • Sarah Watson

    (Institut Curie Research Center
    Institut Curie Hospital)

Abstract

Dedifferentiated liposarcoma (DDLPS) is the most frequent high-grade soft tissue sarcoma subtype. It is characterized by a component of undifferentiated tumor cells coexisting with a component of well-differentiated adipocytic tumor cells. Both dedifferentiated (DD) and well-differentiated (WD) components exhibit MDM2 amplification, however their cellular origin remains elusive. Using single-cell RNA sequencing, DNA sequencing, in situ multiplex immunofluorescence and functional assays in paired WD and DD components from primary DDLPS tumors, we characterize the cellular heterogeneity of DDLPS tumor and micro-environment. We identify a population of tumor adipocyte stem cells (ASC) showing striking similarities with adipocyte stromal progenitors found in white adipose tissue. We show that tumor ASC harbor the ancestral genomic alterations of WD and DD components, suggesting that both derive from these progenitors following clonal evolution. Last, we show that DD tumor cells keep important biological properties of ASC including pluripotency and that their adipogenic properties are inhibited by a TGF-β-high immunosuppressive tumor micro-environment.

Suggested Citation

  • Nadège Gruel & Chloé Quignot & Laëtitia Lesage & Sophie El Zein & Sylvie Bonvalot & Dimitri Tzanis & Khadija Ait Rais & Fabien Quinquis & Bastien Manciot & Julien Vibert & Nadine El Tannir & Ahmed Dah, 2024. "Cellular origin and clonal evolution of human dedifferentiated liposarcoma," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-52067-1
    DOI: 10.1038/s41467-024-52067-1
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    Cited by:

    1. Gabrielle Manteaux & Alix Amsel & Blanche Riquier-Morcant & Jaime Prieto Romero & Laurie Gayte & Benjamin Fourneaux & Marion Larroque & Nadège Gruel & Chloé Quignot & Gaelle Perot & Solenn Jacq & Madi, 2024. "A metabolic crosstalk between liposarcoma and muscle sustains tumor growth," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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