A unique mutator phenotype reveals complementary oncogenic lesions leading to acute leukemia
Mianmian Yin, Timour Baslan, Robert L. Walker, Yuelin J. Zhu, Amy Freeland, Toshihiro Matsukawa, Sriram Sridharan, André Nussenzweig, Steven C. Pruitt, Scott W. Lowe, Paul S. Meltzer, Peter D. Aplan
Mianmian Yin, Timour Baslan, Robert L. Walker, Yuelin J. Zhu, Amy Freeland, Toshihiro Matsukawa, Sriram Sridharan, André Nussenzweig, Steven C. Pruitt, Scott W. Lowe, Paul S. Meltzer, Peter D. Aplan
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Research Article Genetics Hematology

A unique mutator phenotype reveals complementary oncogenic lesions leading to acute leukemia

Abstract

Mice homozygous for a hypomorphic allele of DNA replication factor minichromosome maintenance protein 2 (designated Mcm2cre/cre) develop precursor T cell lymphoblastic leukemia/lymphoma (pre-T LBL) with 4–32 small interstitial deletions per tumor. Mice that express a NUP98-HOXD13 (NHD13) transgene develop multiple types of leukemia, including myeloid and T and B lymphocyte. All Mcm2cre/cre NHD13+ mice develop pre-T LBL, and 26% develop an unrelated, concurrent B cell precursor acute lymphoblastic leukemia (BCP-ALL). Copy number alteration (CNA) analysis demonstrated that pre-T LBLs were characterized by homozygous deletions of Pten and Tcf3 and partial deletions of Notch1 leading to Notch1 activation. In contrast, BCP-ALLs were characterized by recurrent deletions involving Pax5 and Ptpn1 and copy number gain of Abl1 and Nup214 resulting in a Nup214-Abl1 fusion. We present a model in which Mcm2 deficiency leads to replicative stress, DNA double strand breaks (DSBs), and resultant CNAs due to errors in DNA DSB repair. CNAs that involve critical oncogenic pathways are then selected in vivo as malignant lymphoblasts because of a fitness advantage. Some CNAs, such as those involving Abl1 and Notch1, represent attractive targets for therapy.

Authors

Mianmian Yin, Timour Baslan, Robert L. Walker, Yuelin J. Zhu, Amy Freeland, Toshihiro Matsukawa, Sriram Sridharan, André Nussenzweig, Steven C. Pruitt, Scott W. Lowe, Paul S. Meltzer, Peter D. Aplan

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Figure 4

Interstitial deletions lead to activation of Notch1.

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Interstitial deletions lead to activation of Notch1. (A) Summary of Notc...
(A) Summary of Notch1 deletions. Notch1 (ENSMUSG00000026923) exons are indicated in blue. Functional domains (EGF-like ligand-binding domain, HD, and intracellular domain of Notch1 [ICN]) as shown. Deleted exons of Notch1, frameshift mutations, missense mutations, and in-frame insertion are indicated. (B) Aberrant Notch1 mRNA splice forms in 2880, 2963, 2748, 2973, 2008, and 2897 thymus and 2773 TCL. RT-PCR for WT (WT thy1), 2880, 2963, 2008, and 2897 thymus and 2773 TCL was performed by using primers located in exons 1 and 29 of Notch1 to detect the junction of exon 2 and exon 28. RT-PCR for WT (WT thy2), 2748, and 2973 thymus was performed by using primers located in exons 13 and 29 of Notch1 to detect the junction of exon 15 and exon 28. The lanes were grouped from different gels as indicated by the vertical lines. (C) ICN expression in pre-T LBL primary tumor and pre-T LBL cell line. The lanes were grouped from different gels as indicated by the vertical lines. (D) RT-PCR analysis of Notch1 target Hes1 expression in WT thymus and pre-T LBL with Notch1 mutations. Error bars represent standard deviation of 3 technical replicates (n = 3).