p53-/- synergizes with enhanced NrasG12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia

Jingfang Zhang; Guangyao Kong; Adhithi Rajagopalan; Li Lu; Jingming Song; Mohamed Hussaini; Xinmin Zhang; Erik A. Ranheim; Yangang Liu; Jinyong Wang; Xin Gao; Yuan I. Chang; Kirby D. Johnson; Yun Zhou; David Yang; Bhavana Bhatnagar; David M. Lucas; Emery H. Bresnick; Xuehua Zhong; Eric Padron; Jing Zhang

doi:10.1182/blood-2016-06-719237

p53^-/- synergizes with enhanced Nras^G12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia

Jingfang Zhang, Guangyao Kong, Adhithi Rajagopalan, Li Lu, Jingming Song, Mohamed Hussaini, Xinmin Zhang, Erik A. Ranheim, Yangang Liu, Jinyong Wang, Xin Gao, Yuan I. Chang, Kirby D. Johnson, Yun Zhou, David Yang, Bhavana Bhatnagar, David M. Lucas, Emery H. Bresnick, Xuehua Zhong, Eric PadronJing Zhang

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31 Scopus citations

Abstract

Somatic mutations in TP53 and NRAS are associated with transformation of human chronic myeloid diseases to acute myeloid leukemia (AML). Here, we report that concurrent RAS pathway and TP53 mutations are identified in a subset of AML patients and confer an inferior overall survival. To further investigate the genetic interaction between p53 loss and endogenous Nras^G12D/1 in AML, we generated conditional Nras^G12D/1p53²/2 mice. Consistent with the clinical data, recipient mice transplanted with Nras^G12D/1p53²/2 bone marrow cells rapidly develop a highly penetrant AML. We find that p53²/² cooperates with Nras^G12D/1 to promote increased quiescence in megakaryocyte-erythroid progenitors (MEPs). Nras^G12D/1p53²/² MEPs are transformed to self-renewing AML-initiating cells and are capable of inducing AML in serially transplanted recipients. RNA sequencing analysis revealed that transformed MEPs gain a partial hematopoietic stem cell signature and largely retain an MEP signature. Their distinct transcriptomes suggests a potential regulation by p53 loss. In addition, we show that during AML development, transformed MEPs acquire overexpression of oncogenic Nras, leading to hyperactivation of ERK1/2 signaling. Our results demonstrate that p53²/² synergizes with enhanced oncogenic Nras signaling to transform MEPs and drive AML development. This model may serve as a platform to test candidate therapeutics in this aggressive subset of AML.

Original language	English
Pages (from-to)	358-370
Number of pages	13
Journal	Blood
Volume	129
Issue number	3
DOIs	https://doi.org/10.1182/blood-2016-06-719237
State	Published - Jan 19 2017

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Zhang, J., Kong, G., Rajagopalan, A., Lu, L., Song, J., Hussaini, M., Zhang, X., Ranheim, E. A., Liu, Y., Wang, J., Gao, X., Chang, Y. I., Johnson, K. D., Zhou, Y., Yang, D., Bhatnagar, B., Lucas, D. M., Bresnick, E. H., Zhong, X., ... Zhang, J. (2017). p53^-/- synergizes with enhanced Nras^G12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia. Blood, 129(3), 358-370. https://doi.org/10.1182/blood-2016-06-719237

@article{3b7ba00932c44e3b8b95f843cc6ece1f,

title = "p53-/- synergizes with enhanced NrasG12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia",

abstract = "Somatic mutations in TP53 and NRAS are associated with transformation of human chronic myeloid diseases to acute myeloid leukemia (AML). Here, we report that concurrent RAS pathway and TP53 mutations are identified in a subset of AML patients and confer an inferior overall survival. To further investigate the genetic interaction between p53 loss and endogenous NrasG12D/1 in AML, we generated conditional NrasG12D/1p532/2 mice. Consistent with the clinical data, recipient mice transplanted with NrasG12D/1p532/2 bone marrow cells rapidly develop a highly penetrant AML. We find that p532/2 cooperates with NrasG12D/1 to promote increased quiescence in megakaryocyte-erythroid progenitors (MEPs). NrasG12D/1p532/2 MEPs are transformed to self-renewing AML-initiating cells and are capable of inducing AML in serially transplanted recipients. RNA sequencing analysis revealed that transformed MEPs gain a partial hematopoietic stem cell signature and largely retain an MEP signature. Their distinct transcriptomes suggests a potential regulation by p53 loss. In addition, we show that during AML development, transformed MEPs acquire overexpression of oncogenic Nras, leading to hyperactivation of ERK1/2 signaling. Our results demonstrate that p532/2 synergizes with enhanced oncogenic Nras signaling to transform MEPs and drive AML development. This model may serve as a platform to test candidate therapeutics in this aggressive subset of AML.",

author = "Jingfang Zhang and Guangyao Kong and Adhithi Rajagopalan and Li Lu and Jingming Song and Mohamed Hussaini and Xinmin Zhang and Ranheim, {Erik A.} and Yangang Liu and Jinyong Wang and Xin Gao and Chang, {Yuan I.} and Johnson, {Kirby D.} and Yun Zhou and David Yang and Bhavana Bhatnagar and Lucas, {David M.} and Bresnick, {Emery H.} and Xuehua Zhong and Eric Padron and Jing Zhang",

note = "Funding Information: The authors thank the University of Wisconsin Carbone Comprehensive Cancer Center for use of its Shared Services (Flow Cytometry Core and Histology Laboratory) to complete this research. This work was supported by startup funds from University of Wisconsin-Madison and a National Science Foundation CAREER award (MCB-1552455) (Xuehua Zhong), National Institutes of Health, National Institute of Diabetes and Digestive and Kidney Diseases grant no. DK68634 (E.H.B.), the American Society of Hematology Scholar Award and MDS Evans Foundation Fellow award (E.P.), and grant nos. R01CA152108 and R01HL113066, and a Scholar Award from the Leukemia & Lymphoma Society (Jing Zhang) This work was also supported in part by National Institutes of Health National Cancer Institute (NCI) Comprehensive Cancer Center Support grant no. P30 CA014520-UW. The patient sample (CMML-OSU) for this study was provided by the Ohio State University Comprehensive Cancer Center Leukemia Tissue Bank, supported by the NCI grant no. P30 CA016058. Publisher Copyright: {\textcopyright} 2017 by The American Society of Hematology.",

year = "2017",

month = jan,

day = "19",

doi = "10.1182/blood-2016-06-719237",

language = "English",

volume = "129",

pages = "358--370",

journal = "Blood",

issn = "0006-4971",

number = "3",

}

Zhang, J, Kong, G, Rajagopalan, A, Lu, L, Song, J, Hussaini, M, Zhang, X, Ranheim, EA, Liu, Y, Wang, J, Gao, X, Chang, YI, Johnson, KD, Zhou, Y, Yang, D, Bhatnagar, B, Lucas, DM, Bresnick, EH, Zhong, X, Padron, E & Zhang, J 2017, 'p53^-/- synergizes with enhanced Nras^G12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia', Blood, vol. 129, no. 3, pp. 358-370. https://doi.org/10.1182/blood-2016-06-719237

TY - JOUR

T1 - p53-/- synergizes with enhanced NrasG12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia

AU - Zhang, Jingfang

AU - Kong, Guangyao

AU - Rajagopalan, Adhithi

AU - Lu, Li

AU - Song, Jingming

AU - Hussaini, Mohamed

AU - Zhang, Xinmin

AU - Ranheim, Erik A.

AU - Liu, Yangang

AU - Wang, Jinyong

AU - Gao, Xin

AU - Chang, Yuan I.

AU - Johnson, Kirby D.

AU - Zhou, Yun

AU - Yang, David

AU - Bhatnagar, Bhavana

AU - Lucas, David M.

AU - Bresnick, Emery H.

AU - Zhong, Xuehua

AU - Padron, Eric

AU - Zhang, Jing

N1 - Funding Information: The authors thank the University of Wisconsin Carbone Comprehensive Cancer Center for use of its Shared Services (Flow Cytometry Core and Histology Laboratory) to complete this research. This work was supported by startup funds from University of Wisconsin-Madison and a National Science Foundation CAREER award (MCB-1552455) (Xuehua Zhong), National Institutes of Health, National Institute of Diabetes and Digestive and Kidney Diseases grant no. DK68634 (E.H.B.), the American Society of Hematology Scholar Award and MDS Evans Foundation Fellow award (E.P.), and grant nos. R01CA152108 and R01HL113066, and a Scholar Award from the Leukemia & Lymphoma Society (Jing Zhang) This work was also supported in part by National Institutes of Health National Cancer Institute (NCI) Comprehensive Cancer Center Support grant no. P30 CA014520-UW. The patient sample (CMML-OSU) for this study was provided by the Ohio State University Comprehensive Cancer Center Leukemia Tissue Bank, supported by the NCI grant no. P30 CA016058. Publisher Copyright: © 2017 by The American Society of Hematology.

PY - 2017/1/19

Y1 - 2017/1/19

N2 - Somatic mutations in TP53 and NRAS are associated with transformation of human chronic myeloid diseases to acute myeloid leukemia (AML). Here, we report that concurrent RAS pathway and TP53 mutations are identified in a subset of AML patients and confer an inferior overall survival. To further investigate the genetic interaction between p53 loss and endogenous NrasG12D/1 in AML, we generated conditional NrasG12D/1p532/2 mice. Consistent with the clinical data, recipient mice transplanted with NrasG12D/1p532/2 bone marrow cells rapidly develop a highly penetrant AML. We find that p532/2 cooperates with NrasG12D/1 to promote increased quiescence in megakaryocyte-erythroid progenitors (MEPs). NrasG12D/1p532/2 MEPs are transformed to self-renewing AML-initiating cells and are capable of inducing AML in serially transplanted recipients. RNA sequencing analysis revealed that transformed MEPs gain a partial hematopoietic stem cell signature and largely retain an MEP signature. Their distinct transcriptomes suggests a potential regulation by p53 loss. In addition, we show that during AML development, transformed MEPs acquire overexpression of oncogenic Nras, leading to hyperactivation of ERK1/2 signaling. Our results demonstrate that p532/2 synergizes with enhanced oncogenic Nras signaling to transform MEPs and drive AML development. This model may serve as a platform to test candidate therapeutics in this aggressive subset of AML.

AB - Somatic mutations in TP53 and NRAS are associated with transformation of human chronic myeloid diseases to acute myeloid leukemia (AML). Here, we report that concurrent RAS pathway and TP53 mutations are identified in a subset of AML patients and confer an inferior overall survival. To further investigate the genetic interaction between p53 loss and endogenous NrasG12D/1 in AML, we generated conditional NrasG12D/1p532/2 mice. Consistent with the clinical data, recipient mice transplanted with NrasG12D/1p532/2 bone marrow cells rapidly develop a highly penetrant AML. We find that p532/2 cooperates with NrasG12D/1 to promote increased quiescence in megakaryocyte-erythroid progenitors (MEPs). NrasG12D/1p532/2 MEPs are transformed to self-renewing AML-initiating cells and are capable of inducing AML in serially transplanted recipients. RNA sequencing analysis revealed that transformed MEPs gain a partial hematopoietic stem cell signature and largely retain an MEP signature. Their distinct transcriptomes suggests a potential regulation by p53 loss. In addition, we show that during AML development, transformed MEPs acquire overexpression of oncogenic Nras, leading to hyperactivation of ERK1/2 signaling. Our results demonstrate that p532/2 synergizes with enhanced oncogenic Nras signaling to transform MEPs and drive AML development. This model may serve as a platform to test candidate therapeutics in this aggressive subset of AML.

UR - http://www.scopus.com/inward/record.url?scp=85028335122&partnerID=8YFLogxK

U2 - 10.1182/blood-2016-06-719237

DO - 10.1182/blood-2016-06-719237

M3 - Article

C2 - 27815262

AN - SCOPUS:85028335122

SN - 0006-4971

VL - 129

SP - 358

EP - 370

JO - Blood

JF - Blood

IS - 3

ER -

p53^-/- synergizes with enhanced Nras^G12D signaling to transform megakaryocyte-erythroid progenitors in acute myeloid leukemia

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