Emily Gruber scite author profile

Internal tandem duplication of the FMS-like tyrosine kinase 3 gene (FLT3-ITD) occurs in 30% of all acute myeloid leukemias (AML). Limited clinical efficacy of FLT3 inhibitors highlights the need for alternative therapeutic modalities in this subset of disease. Using human and murine models of FLT3-ITD–driven AML, we demonstrate that FLT3-ITD promotes serine synthesis and uptake via ATF4-dependent transcriptional regulation of genes in the de novo serine biosynthesis pathway and neutral amino acid transport. Genetic or pharmacologic inhibition of PHGDH, the rate-limiting enzyme of de novo serine biosynthesis, selectively inhibited proliferation of FLT3-ITD AMLs in vitro and in vivo. Moreover, pharmacologic inhibition of PHGDH sensitized FLT3-ITD AMLs to the standard-of-care chemotherapeutic cytarabine. Collectively, these data reveal novel insights into FLT3-ITD–induced metabolic reprogramming and reveal a targetable vulnerability in FLT3-ITD AML. Significance: FLT3-ITD mutations are common in AML and are associated with poor prognosis. We show that FLT3-ITD stimulates serine biosynthesis, thereby rendering FLT3-ITD–driven leukemias dependent upon serine for proliferation and survival. This metabolic dependency can be exploited pharmacologically to sensitize FLT3-ITD–driven AMLs to chemotherapy. This article is highlighted in the In This Issue feature, p. 1307

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Distinct and overlapping mechanisms of resistance to azacytidine and guadecitabine in acute myeloid leukemia

Gruber

Franich

Shortt

et al. 2020

Leukemia

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Emily Gruber

IL-15 Preconditioning Augments CAR T Cell Responses to Checkpoint Blockade for Improved Treatment of Solid Tumors

Serine Biosynthesis Is a Metabolic Vulnerability in FLT3-ITD–Driven Acute Myeloid Leukemia

Distinct and overlapping mechanisms of resistance to azacytidine and guadecitabine in acute myeloid leukemia

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