HemaSphere (Feb 2020)

Phospho-Profiling Linking Biology and Clinics in Pediatric Acute Myeloid Leukemia

  • Angela Schumich,
  • Michaela Prchal-Murphy,
  • Margarita Maurer-Granofszky,
  • Andrea Hoelbl-Kovacic,
  • Nora Mühlegger,
  • Ulrike Pötschger,
  • Sabine Fajmann,
  • Oskar A. Haas,
  • Karin Nebral,
  • Nils von Neuhoff,
  • Martin Zimmermann,
  • Heidrun Boztug,
  • Mareike Rasche,
  • Marlies Dolezal,
  • Christiane Walter,
  • Dirk Reinhardt,
  • Veronika Sexl,
  • Michael N. Dworzak

DOI
https://doi.org/10.1097/HS9.0000000000000312
Journal volume & issue
Vol. 4, no. 1
p. e312

Abstract

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Abstract. Aberrant activation of key signaling-molecules is a hallmark of acute myeloid leukemia (AML) and may have prognostic and therapeutic implications. AML summarizes several disease entities with a variety of genetic subtypes. A comprehensive model spanning from signal activation patterns in major genetic subtypes of pediatric AML (pedAML) to outcome prediction and pre-clinical response to signaling inhibitors has not yet been provided. We established a high-throughput flow-cytometry based method to assess activation of hallmark phospho-proteins (phospho-flow) in 166 bone-marrow derived pedAML samples under basal and cytokine stimulated conditions. We correlated levels of activated phospho-proteins at diagnosis with relapse incidence in intermediate (IR) and high risk (HR) subtypes. In parallel, we screened a set of signaling inhibitors for their efficacy against primary AML blasts in a flow-cytometry based ex vivo cytotoxicity assay and validated the results in a murine xenograft model. Certain phospho-signal patterns differ between genetic subtypes of pedAML. Some are consistently seen through all AML subtypes such as pSTAT5. In IR/HR subtypes high levels of GM-CSF stimulated pSTAT5 and low levels of unstimulated pJNK correlated with increased relapse risk overall. Combination of GM-CSF/pSTAT5high and basal/pJNKlow separated three risk groups among IR/HR subtypes. Out of 10 tested signaling inhibitors, midostaurin most effectively affected AML blasts and simultaneously blocked phosphorylation of multiple proteins, including STAT5. In a mouse xenograft model of KMT2A-rearranged pedAML, midostaurin significantly prolonged disease latency. Our study demonstrates the applicability of phospho-flow for relapse-risk assessment in pedAML, whereas functional phenotype-driven ex vivo testing of signaling inhibitors may allow individualized therapy.