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Literature DB >> 29148541

Integrated genomic analysis identifies deregulated JAK/STAT-MYC-biosynthesis axis in aggressive NK-cell leukemia.

Liang Huang¹, Dan Liu², Na Wang¹, Shaoping Ling^2,3, Yuting Tang¹, Jun Wu², Lingtong Hao^2,4,3, Hui Luo¹, Xuelian Hu¹, Lingshuang Sheng¹, Lijun Zhu¹, Di Wang¹, Yi Luo¹, Zhen Shang¹, Min Xiao¹, Xia Mao¹, Kuangguo Zhou¹, Lihua Cao^2,3, Lili Dong², Xinchang Zheng^2,4, Pinpin Sui^2,4, Jianlin He², Shanlan Mo^2,4, Jin Yan², Qilin Ao⁵, Lugui Qiu⁶, Hongsheng Zhou⁷, Qifa Liu⁷, Hongyu Zhang⁸, Jianyong Li⁹, Jie Jin¹⁰, Li Fu¹¹, Weili Zhao¹², Jieping Chen¹³, Xin Du¹⁴, Guoliang Qing¹⁵, Hudan Liu¹⁵, Xin Liu^2,4, Gang Huang^16,17, Ding Ma^18,19, Jianfeng Zhou^1,6,19, Qian-Fei Wang^2,6,4.

Abstract

Aggressive NK-cell leukemia (ANKL) is a rare form of NK cell neoplasm that is more prevalent among people from Asia and Central and South America. Patients usually die within days to months, even after receiving prompt therapeutic management. Here we performed the first comprehensive study of ANKL by integrating whole genome, transcriptome and targeted sequencing, cytokine array as well as functional assays. Mutations in the JAK-STAT pathway were identified in 48% (14/29) of ANKL patients, while the extracellular STAT3 stimulator IL10 was elevated by an average of 56-fold (P < 0.0001) in the plasma of all patients examined. Additional frequently mutated genes included TP53 (34%), TET2 (28%), CREBBP (21%) and MLL2 (21%). Patient NK leukemia cells showed prominent activation of STAT3 phosphorylation, MYC expression and transcriptional activities in multiple metabolic pathways. Functionally, STAT3 activation and MYC expression were critical for the proliferation and survival of ANKL cells. STAT signaling regulated the MYC transcription program, and both STAT signaling and MYC transcription were required to maintain the activation of nucleotide synthesis and glycolysis. Collectively, the JAK-STAT pathway represents a major target for genomic alterations and IL10 stimulation in ANKL. This newly discovered JAK/STAT-MYC-biosynthesis axis may provide opportunities for the development of novel therapeutic strategies in treating this subtype of leukemia.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2017 PMID： 29148541 PMCID： PMC5799812 DOI： 10.1038/cr.2017.146

Source DB: PubMed Journal: Cell Res ISSN： 1001-0602 Impact factor: 25.617

53 in total

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21 in total

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3. Mechanism of hyperproteinemia-induced blood cell homeostasis imbalance in an animal model.

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4. Genomic and transcriptomic landscapes of Epstein-Barr virus in extranodal natural killer T-cell lymphoma.

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5. A20 regulates the therapeutic effect of anti-PD-1 immunotherapy in melanoma.

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Review 6. Untwining Anti-Tumor and Immunosuppressive Effects of JAK Inhibitors-A Strategy for Hematological Malignancies?

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Authors: Fumihiro Ishida
Journal: Front Pediatr Date: 2018-10-10 Impact factor: 3.418