Characterization of the clonal hierarchy and immunophenotype of PTPN11 mutations in acute myeloid leukemia
Sydney Fobare, Chia Sharpe, Kate Quinn, Kinsey Bryant, Linde A. Miles, Robert L. Bowman, Carolyn Cheney, Casie Furby, Marissa Long, Kaytlynn Fyock, Ben Wronowski, James R. Lerma, Krzysztof Mrózek, Deedra Nicolet, Thomas M. Sesterhenn, Megan E. Johnstone, Jianmin Pan, Shesh N. Rai, Chandrashekhar Pasare, Nives Zimmermann, Wen-Mei Yu, Cheng-Kui Qu, Andrew Carroll, Richard Stone, Eunice S. Wang, Jonathan Kolitz, Bayard Powell, John P. Perentesis, Ann-Kathrin Eisfeld, Erin Hertlein, John C. Byrd
Sydney Fobare, Chia Sharpe, Kate Quinn, Kinsey Bryant, Linde A. Miles, Robert L. Bowman, Carolyn Cheney, Casie Furby, Marissa Long, Kaytlynn Fyock, Ben Wronowski, James R. Lerma, Krzysztof Mrózek, Deedra Nicolet, Thomas M. Sesterhenn, Megan E. Johnstone, Jianmin Pan, Shesh N. Rai, Chandrashekhar Pasare, Nives Zimmermann, Wen-Mei Yu, Cheng-Kui Qu, Andrew Carroll, Richard Stone, Eunice S. Wang, Jonathan Kolitz, Bayard Powell, John P. Perentesis, Ann-Kathrin Eisfeld, Erin Hertlein, John C. Byrd
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Research Article Hematology Oncology

Characterization of the clonal hierarchy and immunophenotype of PTPN11 mutations in acute myeloid leukemia

Abstract

Mutations in protein tyrosine phosphatase non-receptor type 11 (PTPN11) have been considered late acquired mutations in acute myeloid leukemia (AML) development. Using single-cell DNA sequencing, we found that PTPN11 mutations can occur as initiating events in some patients with AML when accompanied by strong oncogenic drivers, commonly NPM1 mutations. The resulting AML has a diverse set of variably differentiated myeloid cells with few myeloid cells that lack leukemic mutations. The role of Ptpn11 as a codriver was confirmed in a murine model that exhibits an AML phenotype with a comparable immune diversity that is serially engraftable and reconstituted from early precursor cells. Furthermore, lineage-negative bone marrow cells from these mice reconstitute the full diversity of mature myeloid cells, and these cells exhibit an altered cytokine response after physiologic stimulation. Our work highlights how PTPN11-mutated AML is derived from a multitude of codominant and late acquired aberrations that have a previously unrecognized differentiated myeloid clonal expansion potentially contributing to pathogenesis of the disease.

Authors

Sydney Fobare, Chia Sharpe, Kate Quinn, Kinsey Bryant, Linde A. Miles, Robert L. Bowman, Carolyn Cheney, Casie Furby, Marissa Long, Kaytlynn Fyock, Ben Wronowski, James R. Lerma, Krzysztof Mrózek, Deedra Nicolet, Thomas M. Sesterhenn, Megan E. Johnstone, Jianmin Pan, Shesh N. Rai, Chandrashekhar Pasare, Nives Zimmermann, Wen-Mei Yu, Cheng-Kui Qu, Andrew Carroll, Richard Stone, Eunice S. Wang, Jonathan Kolitz, Bayard Powell, John P. Perentesis, Ann-Kathrin Eisfeld, Erin Hertlein, John C. Byrd

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Figure 4

Characterization of the Npm1cA/Ptpn11E76K mouse model.

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Characterization of the Npm1cA/Ptpn11E76K mouse model. (A) Overall survi...
(A) Overall survival of Npm1cA, Ptpn11E76K, and Npm1cA/Ptpn11E76K mice. (B) Representative picture of a spleen collected from a Npm1cA/Ptpn11E76K mouse at survival endpoint compared with age-matched Mx-Cre mouse spleen. Summary of spleen weights (in grams) of Npm1cA/Ptpn11E76K mice at time of death compared with aged-matched controls. (C) White blood cell (WBC), red blood cell (RBC), and platelet (PLT) counts of Npm1cA/Ptpn11E76K mice at time of death compared with aged-matched controls. (D) Representative peripheral blood flow cytometry plot (gated on CD45+CD3CD19NK1.1 cells; percentage based on total CD45+ cells) of Mx-Cre and Npm1cA/Ptpn11E76K mice 4 weeks after poly(I:C) induction (total n of 11 Mx-Cre mice and 14 Ptpn11E76K/Npm1cA mice). Data are presented as mean ± SD. Statistical analysis by 1-way ANOVA with Benjamini-Hochberg FDR correction applied. *FDR-adjusted P ≤ 0.05, ***FDR-adjusted P ≤ 0.001, ****FDR-adjusted P ≤ 0.0001.