PLCG1 is required for AML1-ETO leukemia stem cell self-renewal

Tina M Schnoeder,Andreas Hochhaus,Lars Bullinger,Edouard G Stanley,Florian Perner,Monica Nafria,Holger Bierhoff,Patricia Arreba-Tutusaus,Alessandro Ori,Ashok Kumar Jayavelu,Constanze Bonifer,Olaf Heidenreich,Theresa Eifert,Nicolas Huber,Konstanze Döhner,Andrew G Elefanty,Zhu Chen,Steffen Brodt,Adrian Schwarzer,Chen-Jen Hsu,Marcus Buschbeck,Georg Matziolis,Lu Jiang,Matthias Mann,Chun-Wei Chen,Florian H Heidel,Anna Dolnik,Salam A Assi,Klaus‐Dieter Fischer ,Yuting Dai ,Anetta Ptasińska ,Björn Von Eyß ,Elizabeth Ng ,Steven Lane ,Sai‐Juan Chen ,Joanna M Kirkpatrick ,Sophie Kellaway

doi:10.1182/blood.2021012778

Abstract

AbstractIn an effort to identify novel drugs targeting fusion-oncogene–induced acute myeloid leukemia (AML), we performed high-resolution proteomic analysis. In AML1-ETO (AE)-driven AML, we uncovered a deregulation of phospholipase C (PLC) signaling. We identified PLCgamma 1 (PLCG1) as a specific target of the AE fusion protein that is induced after AE binding to intergenic regulatory DNA elements. Genetic inactivation of PLCG1 in murine and human AML inhibited AML1-ETO dependent self-renewal programs, leukemic proliferation, and leukemia maintenance in vivo. In contrast, PLCG1 was dispensable for normal hematopoietic stem and progenitor cell function. These findings are extended to and confirmed by pharmacologic perturbation of Ca++-signaling in AML1-ETO AML cells, indicating that the PLCG1 pathway poses an important therapeutic target for AML1-ETO+ leukemic stem cells.

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