A Multiparametric Niche-like Drug Screening Platform in Acute Myeloid Leukemia

Overview

Journal Blood Cancer J

Date 2022 Jun 24

PMID 35750691

Authors

Reinaldo Dal Bello

Justine Pasanisi

Romane Joudinaud

Matthieu Duchmann

Bryann Pardieu

Paolo Ayaka

Giuseppe Di Feo

Gaetano Sodaro

Clementine Chauvel

Rathana Kim

Loic Vasseur

Laureen Chat

Frank Ling

Kim Pacchiardi

Camille Vaganay

Jeannig Berrou

Chaima Benaksas

Nicolas Boissel

Thorsten Braun

Claude Preudhomme

Herve Dombret

Emmanuel Raffoux

Nina Fenouille

Emmanuelle Clappier

Lionel Ades

Alexandre Puissant

Raphael Itzykson

Affiliations

Soon will be listed here.

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 (O 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.

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