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Acquired miR-142 deficit in leukemic stem cells suffices to drive chronic myeloid leukemia into blast crisis
- Zhang, Bin;
- Zhao, Dandan;
- Chen, Fang;
- Frankhouser, David;
- Wang, Huafeng;
- Pathak, Khyatiben V;
- Dong, Lei;
- Torres, Anakaren;
- Garcia-Mansfield, Krystine;
- Zhang, Yi;
- Hoang, Dinh Hoa;
- Chen, Min-Hsuan;
- Tao, Shu;
- Cho, Hyejin;
- Liang, Yong;
- Perrotti, Danilo;
- Branciamore, Sergio;
- Rockne, Russell;
- Wu, Xiwei;
- Ghoda, Lucy;
- Li, Ling;
- Jin, Jie;
- Chen, Jianjun;
- Yu, Jianhua;
- Caligiuri, Michael A;
- Kuo, Ya-Huei;
- Boldin, Mark;
- Su, Rui;
- Swiderski, Piotr;
- Kortylewski, Marcin;
- Pirrotte, Patrick;
- Nguyen, Le Xuan Truong;
- Marcucci, Guido
- et al.
Abstract
The mechanisms underlying the transformation of chronic myeloid leukemia (CML) from chronic phase (CP) to blast crisis (BC) are not fully elucidated. Here, we show lower levels of miR-142 in CD34+CD38- blasts from BC CML patients than in those from CP CML patients, suggesting that miR-142 deficit is implicated in BC evolution. Thus, we create miR-142 knockout CML (i.e., miR-142-/-BCR-ABL) mice, which develop BC and die sooner than miR-142 wt CML (i.e., miR-142+/+BCR-ABL) mice, which instead remain in CP CML. Leukemic stem cells (LSCs) from miR-142-/-BCR-ABL mice recapitulate the BC phenotype in congenic recipients, supporting LSC transformation by miR-142 deficit. State-transition and mutual information analyses of "bulk" and single cell RNA-seq data, metabolomic profiling and functional metabolic assays identify enhanced fatty acid β-oxidation, oxidative phosphorylation and mitochondrial fusion in LSCs as key steps in miR-142-driven BC evolution. A synthetic CpG-miR-142 mimic oligodeoxynucleotide rescues the BC phenotype in miR-142-/-BCR-ABL mice and patient-derived xenografts.
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