Literature DB >> 33503434

Inflammation-driven deaminase deregulation fuels human pre-leukemia stem cell evolution.

Qingfei Jiang1, Jane Isquith1, Luisa Ladel1, Adam Mark2, Frida Holm3, Cayla Mason1, Yudou He4, Phoebe Mondala1, Isabelle Oliver1, Jessica Pham1, Wenxue Ma1, Eduardo Reynoso1, Shawn Ali1, Isabella Jamieson Morris1, Raymond Diep1, Chanond Nasamran2, Guorong Xu2, Roman Sasik2, Sara Brin Rosenthal2, Amanda Birmingham2, Sanja Coso1, Gabriel Pineda1, Leslie Crews1, Mary E Donohoe1, J Craig Venter5, Thomas Whisenant2, Ruben A Mesa6, Ludmil B Alexandrov7, Kathleen M Fisch8, Catriona Jamieson9.   

Abstract

Inflammation-dependent base deaminases promote therapeutic resistance in many malignancies. However, their roles in human pre-leukemia stem cell (pre-LSC) evolution to acute myeloid leukemia stem cells (LSCs) had not been elucidated. Comparative whole-genome and whole-transcriptome sequencing analyses of FACS-purified pre-LSCs from myeloproliferative neoplasm (MPN) patients reveal APOBEC3C upregulation, an increased C-to-T mutational burden, and hematopoietic stem and progenitor cell (HSPC) proliferation during progression, which can be recapitulated by lentiviral APOBEC3C overexpression. In pre-LSCs, inflammatory splice isoform overexpression coincides with APOBEC3C upregulation and ADAR1p150-induced A-to-I RNA hyper-editing. Pre-LSC evolution to LSCs is marked by STAT3 editing, STAT3β isoform switching, elevated phospho-STAT3, and increased ADAR1p150 expression, which can be prevented by JAK2/STAT3 inhibition with ruxolitinib or fedratinib or lentiviral ADAR1 shRNA knockdown. Conversely, lentiviral ADAR1p150 expression enhances pre-LSC replating and STAT3 splice isoform switching. Thus, pre-LSC evolution to LSCs is fueled by primate-specific APOBEC3C-induced pre-LSC proliferation and ADAR1-mediated splicing deregulation.
Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.

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Year:  2021        PMID: 33503434      PMCID: PMC8477897          DOI: 10.1016/j.celrep.2020.108670

Source DB:  PubMed          Journal:  Cell Rep            Impact factor:   9.423


  107 in total

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Authors:  Sangtae Kim; Konrad Scheffler; Aaron L Halpern; Mitchell A Bekritsky; Eunho Noh; Morten Källberg; Xiaoyu Chen; Yeonbin Kim; Doruk Beyter; Peter Krusche; Christopher T Saunders
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3.  EWS/FLI Confers Tumor Cell Synthetic Lethality to CDK12 Inhibition in Ewing Sarcoma.

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Journal:  Cancer Cell       Date:  2018-01-18       Impact factor: 31.743

Review 4.  Wnt/β-Catenin Signaling, Disease, and Emerging Therapeutic Modalities.

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Authors:  Xiuqing Dong; Geng Chen; Zhixiong Cai; Zhenli Li; Liman Qiu; Haipo Xu; Yuan Yuan; Xiao-Long Liu; Jingfeng Liu
Journal:  Cell Physiol Biochem       Date:  2018-07-11

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9.  RADAR: a rigorously annotated database of A-to-I RNA editing.

Authors:  Gokul Ramaswami; Jin Billy Li
Journal:  Nucleic Acids Res       Date:  2013-10-25       Impact factor: 16.971

10.  Sensitive detection of somatic point mutations in impure and heterogeneous cancer samples.

Authors:  Kristian Cibulskis; Michael S Lawrence; Scott L Carter; Andrey Sivachenko; David Jaffe; Carrie Sougnez; Stacey Gabriel; Matthew Meyerson; Eric S Lander; Gad Getz
Journal:  Nat Biotechnol       Date:  2013-02-10       Impact factor: 54.908
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  3 in total

1.  Upping the antizyme: AZIN1 directs stem cell fate.

Authors:  Luisa Ladel; Catriona H M Jamieson
Journal:  Blood       Date:  2021-11-18       Impact factor: 22.113

Review 2.  Unifying Different Cancer Theories in a Unique Tumour Model: Chronic Inflammation and Deaminases as Meeting Points.

Authors:  Pablo Hernández-Camarero; Elena López-Ruiz; Juan Antonio Marchal; Macarena Perán
Journal:  Int J Mol Sci       Date:  2022-08-05       Impact factor: 6.208

3.  Sensitive intranuclear flow cytometric quantification of IRF4 protein in multiple myeloma and normal human hematopoietic cells.

Authors:  Ashni A Vora; Phoebe K Mondala; Caitlin Costello; A Robert MacLeod; Leslie A Crews
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  3 in total

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