Leukemia-associated NOTCH1 alleles are weak tumor initiators but accelerate K-ras–initiated leukemia
Mark Y. Chiang, … , Jon C. Aster, Warren S. Pear
Mark Y. Chiang, … , Jon C. Aster, Warren S. Pear
Published August 1, 2008
Citation Information: J Clin Invest. 2008;118(9):3181-3194. https://doi.org/10.1172/JCI35090.
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Research Article Hematology

Leukemia-associated NOTCH1 alleles are weak tumor initiators but accelerate K-ras–initiated leukemia

Abstract

Gain-of-function NOTCH1 mutations are found in 50%–70% of human T cell acute lymphoblastic leukemia/lymphoma (T-ALL) cases. Gain-of-function NOTCH1 alleles that initiate strong downstream signals induce leukemia in mice, but it is unknown whether the gain-of-function NOTCH1 mutations most commonly found in individuals with T-ALL generate downstream signals of sufficient strength to induce leukemia. We addressed this question by expressing human gain-of-function NOTCH1 alleles of varying strength in mouse hematopoietic precursors. Uncommon gain-of-function NOTCH1 alleles that initiated strong downstream signals drove ectopic T cell development and induced leukemia efficiently. In contrast, although gain-of-function alleles that initiated only weak downstream signals also induced ectopic T cell development, these more common alleles failed to efficiently initiate leukemia development. However, weak gain-of-function NOTCH1 alleles accelerated the onset of leukemia initiated by constitutively active K-ras and gave rise to tumors that were sensitive to Notch signaling pathway inhibition. These data show that induction of leukemia requires doses of Notch1 greater than those needed for T cell development and that most NOTCH1 mutations found in T-ALL cells do not generate signals of sufficient strength to initiate leukemia development. Furthermore, low, nonleukemogenic levels of Notch1 can complement other leukemogenic events, such as activation of K-ras. Even when Notch1 participates secondarily, the resulting tumors show “addiction” to Notch, providing a further rationale for evaluating Notch signaling pathway inhibitors in leukemia.

Authors

Mark Y. Chiang, Lanwei Xu, Olga Shestova, Gavin Histen, Sarah L’Heureux, Candice Romany, M. Eden Childs, Phyllis A. Gimotty, Jon C. Aster, Warren S. Pear

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Figure 6

Differential ability of L1601P and L1601PΔP to induce c-Myc expression and to rescue the growth of c-Myc–dependent 8946 cells.

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Differential ability of L1601P and L1601PΔP to induce c-Myc expression a...
8946 cells were transduced with empty MigR1 (negative control), L1601P, or L1601PΔP. Two days later, sorted GFP+ cells were treated with DMSO carrier, doxycycline (Dox; 20 ng/ml), or doxycycline and 1 μM JC19 (GSI) in triplicate. (A) Cell numbers were measured (×106 cells/ml) using a logarithmic scale and were extrapolated over time. Conditions in which the cell number dropped below 0.1 × 106 cells/ml failed to yield any viable cells over the 12 days of culture. *No live cells detected after this time. (B) Eighteen hours after treatment, RNA was harvested and assayed for murine c-Myc, Dtx1, Notch3, and CD25 expression with real-time PCR. Target gene amplification normalized to Hprt amplification is shown relative to the signal generated by doxycycline-treated cells transduced with L1601PΔP. No transcript detected. Error bars represent single SDs of the mean.