U2af1 is a haplo-essential gene required for hematopoietic cancer cell survival in mice
Brian A. Wadugu, Sridhar Nonavinkere Srivatsan, Amanda Heard, Michael O. Alberti, Matthew Ndonwi, Jie Liu, Sarah Grieb, Joseph Bradley, Jin Shao, Tanzir Ahmed, Cara L. Shirai, Ajay Khanna, Dennis L. Fei, Christopher A. Miller, Timothy A. Graubert, Matthew J. Walter
Brian A. Wadugu, Sridhar Nonavinkere Srivatsan, Amanda Heard, Michael O. Alberti, Matthew Ndonwi, Jie Liu, Sarah Grieb, Joseph Bradley, Jin Shao, Tanzir Ahmed, Cara L. Shirai, Ajay Khanna, Dennis L. Fei, Christopher A. Miller, Timothy A. Graubert, Matthew J. Walter
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Research Article Hematology Oncology

U2af1 is a haplo-essential gene required for hematopoietic cancer cell survival in mice

Abstract

Somatic mutations in the spliceosome gene U2AF1 are common in patients with myelodysplastic syndromes. U2AF1 mutations that code for the most common amino acid substitutions are always heterozygous, and the retained WT allele is expressed, suggesting that mutant hematopoietic cells may require the residual WT allele to be viable. We show that hematopoiesis and RNA splicing in U2af1 heterozygous knockout mice were similar to those in control mice, but that deletion of the WT allele in U2AF1(S34F) heterozygous mutant–expressing hematopoietic cells (i.e., hemizygous mutant) was lethal. These results confirm that U2AF1 mutant hematopoietic cells are dependent on the expression of WT U2AF1 for survival in vivo and that U2AF1 is a haplo-essential cancer gene. Mutant U2AF1(S34F)-expressing cells were also more sensitive to reduced expression of WT U2AF1 than nonmutant cells. Furthermore, mice transplanted with leukemia cells expressing mutant U2AF1 had significantly reduced tumor burden and improved survival after the WT U2af1 allele was deleted compared with when it was not deleted. These results suggest that selectively targeting the WT U2AF1 allele in heterozygous mutant cells could induce cancer cell death and be a therapeutic strategy for patients harboring U2AF1 mutations.

Authors

Brian A. Wadugu, Sridhar Nonavinkere Srivatsan, Amanda Heard, Michael O. Alberti, Matthew Ndonwi, Jie Liu, Sarah Grieb, Joseph Bradley, Jin Shao, Tanzir Ahmed, Cara L. Shirai, Ajay Khanna, Dennis L. Fei, Christopher A. Miller, Timothy A. Graubert, Matthew J. Walter

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Figure 3

U2af1 deletion in adult mice induces multilineage bone marrow failure.

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U2af1 deletion in adult mice induces multilineage bone marrow failure. ...
(A) Experimental design of a noncompetitive transplant of whole bone marrow cells from CD45.2 Mx1-Cre, U2af1fl/fl, Mx1-Cre U2af1WT/fl, or Mx1-Cre U2af1fl/fl mice transplanted into lethally irradiated congenic WT CD45.1 recipient mice, followed by pIpC-induced Cre activation and U2af1 deletion. Analysis of the peripheral blood and bone marrow was done 8 to 11 days after pIpC. (B) Absolute numbers of peripheral WBCs, platelets (PLT), RBCs, neutrophils, monocytes, B cells, and T cells of mice transplanted with whole bone marrow from Mx1-Cre, U2af1fl/fl, and Mx1-Cre U2af1WT/fl mice compared with Mx1-Cre U2af1fl/fl mice 8–11 days after pIpC. (C) Bone marrow cellularity of Mx1-Cre, U2af1fl/fl, and Mx1-Cre U2af1WT/fl mice compared with Mx1-Cre U2af1fl/fl mice 8–11 days after pIpC. (D) Total number of neutrophils, monocytes, B cells, and T cells per tibia at 8 to 11 days after pIpC for Mx1-Cre, U2af1fl/fl, and Mx1-Cre U2af1WT/fl mice compared with Mx1-Cre U2af1fl/fl mice. (E) Number of progenitor cells (KL and KLS) per tibia of pIpC-treated mice transplanted with Mx1-Cre, U2af1fl/fl, and Mx1-Cre U2af1WT/fl bone marrow cells compared with Mx1-Cre U2af1fl/fl bone marrow cells 8–11 days after pIpC. (F) H&E staining of bone marrow from Cre-ERT2 U2af1fl/fl and Cre-ERT2 control mice at 3 days after tamoxifen. The experimental design is similar to that in panel A, with tamoxifen used for induction of U2af1 deletion. All data are represented as mean ± SD. *P < 0.05; **P < 0.01; ***P < 0.001, 1-way ANOVA with Tukey’s multiple-comparison test. n = 5 per genotype. Scale bars: 100 μm.