The TEL-AML1 leukemia fusion gene dysregulates the TGF-β pathway in early B lineage progenitor cells
Anthony M. Ford, Chiara Palmi, Clara Bueno, Dengli Hong, Penny Cardus, Deborah Knight, Giovanni Cazzaniga, Tariq Enver, Mel Greaves
Anthony M. Ford, Chiara Palmi, Clara Bueno, Dengli Hong, Penny Cardus, Deborah Knight, Giovanni Cazzaniga, Tariq Enver, Mel Greaves
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Research Article Oncology

The TEL-AML1 leukemia fusion gene dysregulates the TGF-β pathway in early B lineage progenitor cells

Abstract

Chromosome translocation to generate the TEL-AML1 (also known as ETV6-RUNX1) chimeric fusion gene is a frequent and early or initiating event in childhood acute lymphoblastic leukemia (ALL). Our starting hypothesis was that the TEL-AML1 protein generates and maintains preleukemic clones and that conversion to overt disease requires secondary genetic changes, possibly in the context of abnormal immune responses. Here, we show that a murine B cell progenitor cell line expressing inducible TEL-AML1 proliferates at a slower rate than parent cells but is more resistant to further inhibition of proliferation by TGF-β. This facilitates the competitive expansion of TEL-AML1–expressing cells in the presence of TGF-β. Further analysis indicated that TEL-AML1 binds to a principal TGF-β signaling target, Smad3, and compromises its ability to activate target promoters. In mice expressing a TEL-AML1 transgene, early, pre-pro-B cells were increased in number and also showed reduced sensitivity to TGF-β–mediated inhibition of proliferation. Moreover, expression of TEL-AML1 in human cord blood progenitor cells led to the expansion of a candidate preleukemic stem cell population that had an early B lineage phenotype (CD34+CD38–CD19+) and a marked growth advantage in the presence of TGF-β. Collectively, these data suggest a plausible mechanism by which dysregulated immune responses to infection might promote the malignant evolution of TEL-AML1–expressing preleukemic clones.

Authors

Anthony M. Ford, Chiara Palmi, Clara Bueno, Dengli Hong, Penny Cardus, Deborah Knight, Giovanni Cazzaniga, Tariq Enver, Mel Greaves

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Figure 4

TEL-AML1 activates expression of p21 but blocks the TGF-β–mediated activation of p27 and inhibits the TGF-β response of a target gene promoter.

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TEL-AML1 activates expression of p21 but blocks the TGF-β–mediated activ...
(A) Q-PCR analysis showing activation of p21 (CDKN1A) by TEL-AML1 in the absence of TGF-β. Control cells and cells inducible for TEL-AML1 were incubated for 3 days in the absence (–) or presence of inducer. cDNA was subjected to Q-PCR and normalized to GAPDH, to which relative expression of p21 is shown. Error bars represent the SD of an experiment performed in triplicate and repeated 3 times. (B) Q-PCR analysis showing a block in expression of TGF-β–induced p27KIP1 in the presence of TEL-AML1. cDNA was prepared from a TGF-β time-course analysis of both control and TEL-AML1–inducible cells in the presence or absence of the TEL-AML1–inducing agent (ind). Cells inducible for TEL-AML1 but not actually induced are indicated by parentheses, i.e., (TEL-AML1). Experiments were repeated 3 times. (C) Inhibition of the TGF-β–responsive IgA promoter by TEL-AML1 in a luciferase reporter assay. Activation of the IgA promoter was assayed by its transient transfection into control cells and cells inducible for TEL-AML1. Cells inducible for TEL-AML1 but not actually induced are indicated by parentheses. Growth was continued in the presence of TGF-β, either alone or after addition of the TEL-AML1–inducing agent. Error bars represent SD from 3 independent experiments. (D) TEL-AML1 associates with Smad3. Cell lysates from control and TEL-AML1–expressing cells were immunoprecipitated with anti-Smad3 antibody and half the IP subjected to Western blot analysis with an antibody against the runt homology domain (RHD) of AML1. Lane 1, uninduced cells; lane 2, TEL-AML1–induced; lane 3, TEL-AML1–induced + TGF; lane 4, control cells + TGF.