Blood Cancer Journal (Jun 2022)

A multiparametric niche-like drug screening platform in acute myeloid leukemia

  • Reinaldo Dal Bello,
  • Justine Pasanisi,
  • Romane Joudinaud,
  • Matthieu Duchmann,
  • Bryann Pardieu,
  • Paolo Ayaka,
  • Giuseppe Di Feo,
  • Gaetano Sodaro,
  • Clémentine Chauvel,
  • Rathana Kim,
  • Loic Vasseur,
  • Laureen Chat,
  • Frank Ling,
  • Kim Pacchiardi,
  • Camille Vaganay,
  • Jeannig Berrou,
  • Chaima Benaksas,
  • Nicolas Boissel,
  • Thorsten Braun,
  • Claude Preudhomme,
  • Hervé Dombret,
  • Emmanuel Raffoux,
  • Nina Fenouille,
  • Emmanuelle Clappier,
  • Lionel Adès,
  • Alexandre Puissant,
  • Raphael Itzykson

DOI
https://doi.org/10.1038/s41408-022-00689-3
Journal volume & issue
Vol. 12, no. 6
pp. 1 – 12

Abstract

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Abstract Functional precision medicine in AML often relies on short-term in vitro drug sensitivity screening (DSS) of primary patient cells in standard culture conditions. We designed a niche-like DSS assay combining physiologic hypoxia (O2 3%) and mesenchymal stromal cell (MSC) co-culture with multiparameter flow cytometry to enumerate lymphocytes and differentiating (CD11/CD14/CD15+) or leukemic stem cell (LSC)-enriched (GPR56+) cells within the leukemic bulk. After functional validation of GPR56 expression as a surrogate for LSC enrichment, the assay identified three patterns of response, including cytotoxicity on blasts sparing LSCs, induction of differentiation, and selective impairment of LSCs. We refined our niche-like culture by including plasma-like amino-acid and cytokine concentrations identified by targeted metabolomics and proteomics of primary AML bone marrow plasma samples. Systematic interrogation revealed distinct contributions of each niche-like component to leukemic outgrowth and drug response. Short-term niche-like culture preserved clonal architecture and transcriptional states of primary leukemic cells. In a cohort of 45 AML samples enriched for NPM1c AML, the niche-like multiparametric assay could predict morphologically (p = 0.02) and molecular (NPM1c MRD, p = 0.04) response to anthracycline-cytarabine induction chemotherapy. In this cohort, a 23-drug screen nominated ruxolitinib as a sensitizer to anthracycline-cytarabine. This finding was validated in an NPM1c PDX model.