HIV-1 Rev–binding protein accelerates cellular uptake of iron to drive Notch-induced T cell leukemogenesis in mice
Shariq S. Khwaja, Hudan Liu, Caili Tong, Fang Jin, Warren S. Pear, Jan van Deursen, Richard J. Bram
Shariq S. Khwaja, Hudan Liu, Caili Tong, Fang Jin, Warren S. Pear, Jan van Deursen, Richard J. Bram
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Research Article Hematology

HIV-1 Rev–binding protein accelerates cellular uptake of iron to drive Notch-induced T cell leukemogenesis in mice

Abstract

Somatic activating mutations in Notch1 contribute to the pathogenesis of T cell acute lymphoblastic lymphoma (T-ALL), but how activated Notch1 signaling exerts this oncogenic effect is not completely understood. Here we identify HIV-1 Rev–binding protein (Hrb), a component of the clathrin-mediated endocytosis machinery, as a critical mediator of Notch-induced T-ALL development in mice. Hrb was found to be a direct transcriptional target of Notch1, and Hrb loss reduced the incidence or delayed the onset of T-ALL in mouse models in which activated Notch1 signaling either contributes to or drives leukemogenesis. Consistent with this observation, Hrb supported survival and proliferation of hematopoietic and T cell precursor cells in vitro. We demonstrated that Hrb accelerated the uptake of transferrin, which was required for upregulation of the T cell protooncogene p21. Indeed, iron-deficient mice developed Notch1-induced T-ALL substantially more slowly than control mice, further supporting a critical role for iron uptake during leukemogenesis. Taken together, these results reveal that Hrb is a critical Notch target gene that mediates lymphoblast transformation and disease progression via its ability to satisfy the enhanced demands of transformed lymphoblasts for iron. Further, our data suggest that Hrb may be targeted to improve current treatment or design novel therapies for human T-ALL patients.

Authors

Shariq S. Khwaja, Hudan Liu, Caili Tong, Fang Jin, Warren S. Pear, Jan van Deursen, Richard J. Bram

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Figure 6

Hrb loss leads to increased surface TfR (CD71) and inefficient transferrin uptake in the context of oncogenic Notch signaling.

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Hrb loss leads to increased surface TfR (CD71) and inefficient transferr...
(A) Surface levels of TfR (CD71) on Hrb+/+ and Hrb–/– MigR1– and ICN1–transduced thymocytes cocultured on OP9DL1 stromal beds. (B) Surface levels of CD71 on Hrb+/+ and Hrb–/– MigR1– and ICN1–transduced hematopoietic precursor cells cocultured on OP9 stromal beds. (C) Uptake of 10 μg/ml Alexa Fluor 647–conjugated transferrin in Hrb+/+ and Hrb–/– MigR1– and ICN1–transduced DP thymocytes. (D) Uptake of Alexa Fluor 647–conjugated transferrin (0–50 μg/ml) in Hrb+/+ and Hrb–/– MigR1– and ICN1–transduced DP thymocytes. Uptake experiments repeated several times with representative graphs shown here. Each point on the curves represents an independently transduced well in the experiment. (E) Hrb+/+ and Hrb–/– ICN1–transduced GFP-positive hematopoietic precursors with and without holo-Tf addition. (F) Surface CD71 levels on GFP-positive Hrb+/+ and Hrb–/– ICN1–transduced hematopoietic precursors treated as in panel E. (EF) Hrb+/+ and Hrb–/– 10 μg/ml holo-Tf samples were compared with respective 0 μg/ml holo-Tf samples. (G) Western blot of lysates prepared from Hrb+/+ and Hrb–/– MigR1–transduced thymocytes and Hrb+/+ and Hrb–/– ICN1–transduced thymocytes grown on OP9DL1 cocultures in the presence of increasing concentrations of holo-Tf. Lysates blotted for TfR: short exposure (top); longer exposure (bottom); and actin (loading control). DN, CD4CD8 DN; CD8 ISP, CD4CD8+ ISP; DP, CD4+CD8+ DP. Data are shown as mean ± SD. *P < 0.05; **P < 0.01; ***P < 0.001.