Mcl1 haploinsufficiency protects mice from Myc-induced acute myeloid leukemia
Zhifu Xiang, … , Joseph T. Opferman, Michael H. Tomasson
Zhifu Xiang, … , Joseph T. Opferman, Michael H. Tomasson
Published May 17, 2010
Citation Information: J Clin Invest. 2010;120(6):2109-2118. https://doi.org/10.1172/JCI39964.
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Research Article Hematology

Mcl1 haploinsufficiency protects mice from Myc-induced acute myeloid leukemia

Abstract

Antiapoptotic BCL2 family members have been implicated in the pathogenesis of acute myelogenous leukemia (AML), but the functional significance and relative importance of individual proteins (e.g., BCL2, BCL-XL, and myeloid cell leukemia 1 [MCL1]) remain poorly understood. Here, we examined the expression of BCL2, BCL-XL, and MCL1 in primary human hematopoietic subsets and leukemic blasts from AML patients and found that MCL1 transcripts were consistently expressed at high levels in all samples tested. Consistent with this, Mcl1 protein was also highly expressed in myeloid leukemic blasts in a mouse Myc-induced model of AML. We used this model to test the hypothesis that Mcl1 facilitates AML development by allowing myeloid progenitor cells to evade Myc-induced cell death. Indeed, activation of Myc for 7 days in vivo substantially increased myeloid lineage cell numbers, whereas hematopoietic stem, progenitor, and B-lineage cells were depleted. Furthermore, Mcl1 haploinsufficiency abrogated AML development. In addition, deletion of a single allele of Mcl1 from fully transformed AML cells substantially prolonged the survival of transplanted mice. Conversely, the rapid lethality of disease was restored by coexpression of Bcl2 and Myc in Mcl1-haploinsufficient cells. Together, these data demonstrate a critical and dose-dependent role for Mcl1 in AML pathogenesis in mice and suggest that MCL1 may be a promising therapeutic target in patients with de novo AML.

Authors

Zhifu Xiang, Hui Luo, Jacqueline E. Payton, Jennifer Cain, Timothy J. Ley, Joseph T. Opferman, Michael H. Tomasson

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Figure 5

Mcl1 haploinsufficiency protects mice from Myc-induced AML.

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Mcl1 haploinsufficiency protects mice from Myc-induced AML. (A) Kap...
(A) Kaplan-Meier survival analyses of mice transplanted with Myc or MIB. Congenic Mcl1fl/WT or Mcl1fl/null mice were used as bone marrow donors as indicated. Note the differences in time scale between the graphs. (B) Mcl1fl/null cells failed to support transformation by Myc. GFP+ cells in Mcl1fl/WT versus Mcl1fl/null recipients were determined by FACS before transplantation in bone marrow, at 3 weeks after transplantation in peripheral blood (PB), and at 6 weeks after transplantation in bone marrow. FCS, forward scatter. Numbers denote the percentage of events falling within the respective gate. Data are mean ± SD. (C) Mx1-Cre–mediated deletion of 1 Mcl1 allele from established AML cells significantly prolonged the survival of secondary recipients. Leukemia cells from primary recipients of Mx1-CreMcl1fl/WT bone marrow transduced with Myc or MIB were transplanted into secondary recipients treated with pIpC or PBS. (D) PCR amplification of the 390-bp Mcl1fl and 340-bp Mcl1WT alleles from transplanted mice. Lane 1, Myc Mcl1fl/WT primary transplant; lane 2, MIB Mcl1fl/WT primary transplant; lane 3, Myc Mcl1fl/WT secondary transplant after pIpC treatment; lane 4, MIB Mcl1fl/WT secondary transplant after pIpC treatment; lane 5, MIB Mcl1fl/WT secondary transplant after pIpC treatment (spleen cells); lane 6, B6 129 Mcl1fl/WT pIpC-treated spleen cells; lane 7, B6 129 Mcl1fl/WT untreated control; lane 8, C57B6 WT control.