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Literature DB >> 32344427

CDK6 is an essential direct target of NUP98 fusion proteins in acute myeloid leukemia.

Johannes Schmoellerl¹, Inês Amorim Monteiro Barbosa², Thomas Eder¹, Tania Brandstoetter³, Luisa Schmidt¹, Barbara Maurer³, Selina Troester¹, Ha Thi Thanh Pham⁴, Mohanty Sagarajit⁵, Jessica Ebner^1,6, Gabriele Manhart¹, Ezgi Aslan⁷, Stefan Terlecki-Zaniewicz¹, Christa Van der Veen⁶, Gregor Hoermann^8,9, Nicolas Duployez¹⁰, Arnaud Petit¹¹, Helene Lapillonne¹¹, Alexandre Puissant¹², Raphael Itzykson¹², Richard Moriggl^4,13, Michael Heuser⁵, Roland Meisel¹⁴, Peter Valent^15,16, Veronika Sexl³, Johannes Zuber^2,13, Florian Grebien¹.

Abstract

Fusion proteins involving Nucleoporin 98 (NUP98) are recurrently found in acute myeloid leukemia (AML) and are associated with poor prognosis. Lack of mechanistic insight into NUP98-fusion-dependent oncogenic transformation has so far precluded the development of rational targeted therapies. We reasoned that different NUP98-fusion proteins deregulate a common set of transcriptional targets that might be exploitable for therapy. To decipher transcriptional programs controlled by diverse NUP98-fusion proteins, we developed mouse models for regulatable expression of NUP98/NSD1, NUP98/JARID1A, and NUP98/DDX10. By integrating chromatin occupancy profiles of NUP98-fusion proteins with transcriptome profiling upon acute fusion protein inactivation in vivo, we defined the core set of direct transcriptional targets of NUP98-fusion proteins. Among those, CDK6 was highly expressed in murine and human AML samples. Loss of CDK6 severely attenuated NUP98-fusion-driven leukemogenesis, and NUP98-fusion AML was sensitive to pharmacologic CDK6 inhibition in vitro and in vivo. These findings identify CDK6 as a conserved, critical direct target of NUP98-fusion proteins, proposing CDK4/CDK6 inhibitors as a new rational treatment option for AML patients with NUP98-fusions.

Entities: CellLine Chemical Disease Gene Mutation Species

Year: 2020 PMID： 32344427 PMCID： PMC7115844 DOI： 10.1182/blood.2019003267

Source DB: PubMed Journal: Blood ISSN： 0006-4971 Impact factor: 22.113

46 in total

1. Identification of MYC mutations in acute myeloid leukemias with NUP98-NSD1 translocations.

Authors: V-P Lavallée; S Lemieux; G Boucher; P Gendron; I Boivin; S Girard; J Hébert; G Sauvageau
Journal: Leukemia Date: 2016-02-09 Impact factor: 11.528

2. MLL is essential for NUP98-HOXA9-induced leukemia.

Authors: Y Shima; M Yumoto; T Katsumoto; I Kitabayashi
Journal: Leukemia Date: 2017-02-17 Impact factor: 11.528

3. Polyclonal RB1 mutations and acquired resistance to CDK 4/6 inhibitors in patients with metastatic breast cancer.

Authors: R Condorelli; L Spring; J O'Shaughnessy; L Lacroix; C Bailleux; V Scott; J Dubois; R J Nagy; R B Lanman; A J Iafrate; F Andre; A Bardia
Journal: Ann Oncol Date: 2018-03-01 Impact factor: 32.976

Review 4. Cell cycle proteins as promising targets in cancer therapy.

Authors: Tobias Otto; Piotr Sicinski
Journal: Nat Rev Cancer Date: 2017-01-27 Impact factor: 60.716

5. Effects of the NUP98-DDX10 oncogene on primary human CD34+ cells: role of a conserved helicase motif.

Authors: E R Yassin; A M Abdul-Nabi; A Takeda; N R Yaseen
Journal: Leukemia Date: 2010-03-25 Impact factor: 11.528

6. NUP98-NSD1 links H3K36 methylation to Hox-A gene activation and leukaemogenesis.

Authors: Gang G Wang; Ling Cai; Martina P Pasillas; Mark P Kamps
Journal: Nat Cell Biol Date: 2007-06-24 Impact factor: 28.824

7. The SS18-SSX Fusion Oncoprotein Hijacks BAF Complex Targeting and Function to Drive Synovial Sarcoma.

Authors: Matthew J McBride; John L Pulice; Hannah C Beird; Davis R Ingram; Andrew R D'Avino; Jack F Shern; Gregory W Charville; Jason L Hornick; Robert T Nakayama; Enrique M Garcia-Rivera; Dejka M Araujo; Wei-Lien Wang; Jen-Wei Tsai; Michelle Yeagley; Andrew J Wagner; P Andrew Futreal; Javed Khan; Alexander J Lazar; Cigall Kadoch
Journal: Cancer Cell Date: 2018-05-31 Impact factor: 31.743

8. Nup98 recruits the Wdr82-Set1A/COMPASS complex to promoters to regulate H3K4 trimethylation in hematopoietic progenitor cells.

Authors: Tobias M Franks; Asako McCloskey; Maxim Nikolaievich Shokirev; Chris Benner; Annie Rathore; Martin W Hetzer
Journal: Genes Dev Date: 2017-12-21 Impact factor: 11.361

9. Haematopoietic malignancies caused by dysregulation of a chromatin-binding PHD finger.

Authors: Gang G Wang; Jikui Song; Zhanxin Wang; Holger L Dormann; Fabio Casadio; Haitao Li; Jun-Li Luo; Dinshaw J Patel; C David Allis
Journal: Nature Date: 2009-06-11 Impact factor: 49.962

10. MLL-fusion-driven leukemia requires SETD2 to safeguard genomic integrity.

Authors: Anna Skucha; Jessica Ebner; Johannes Schmöllerl; Mareike Roth; Thomas Eder; Adrián César-Razquin; Alexey Stukalov; Sarah Vittori; Matthias Muhar; Bin Lu; Martin Aichinger; Julian Jude; André C Müller; Balázs Győrffy; Christopher R Vakoc; Peter Valent; Keiryn L Bennett; Johannes Zuber; Giulio Superti-Furga; Florian Grebien
Journal: Nat Commun Date: 2018-05-18 Impact factor: 17.694

19 in total

Review 1. Relapsed acute myeloid leukemia in children and adolescents: current treatment options and future strategies.

Authors: Sara Zarnegar-Lumley; Kenneth J Caldwell; Jeffrey E Rubnitz
Journal: Leukemia Date: 2022-06-06 Impact factor: 12.883

Review 2. Mechanistic insights and potential therapeutic approaches for NUP98-rearranged hematologic malignancies.

Authors: Nicole L Michmerhuizen; Jeffery M Klco; Charles G Mullighan
Journal: Blood Date: 2020-11-12 Impact factor: 22.113

3. Biomolecular condensation of NUP98 fusion proteins drives leukemogenic gene expression.

Authors: Stefan Terlecki-Zaniewicz; Theresa Humer; Thomas Eder; Johannes Schmoellerl; Elizabeth Heyes; Gabriele Manhart; Natalie Kuchynka; Katja Parapatics; Fabio G Liberante; André C Müller; Eleni M Tomazou; Florian Grebien
Journal: Nat Struct Mol Biol Date: 2021-01-21 Impact factor: 15.369

4. NUP-98 Rearrangements Led to the Identification of Candidate Biomarkers for Primary Induction Failure in Pediatric Acute Myeloid Leukemia.

Authors: Vincenza Barresi; Virginia Di Bella; Nellina Andriano; Anna Provvidenza Privitera; Paola Bonaccorso; Manuela La Rosa; Valeria Iachelli; Giorgia Spampinato; Giulio Pulvirenti; Chiara Scuderi; Daniele F Condorelli; Luca Lo Nigro
Journal: Int J Mol Sci Date: 2021-04-27 Impact factor: 5.923

5. MicroRNA-186-3p attenuates tumorigenesis of cervical cancer by targeting MCM2.

Authors: Xiurong Lu; Xiao Song; Xiaohui Hao; Xiaoyu Liu; Xianyu Zhang; Na Yuan; Huan Ma; Zhilin Zhang
Journal: Oncol Lett Date: 2021-05-19 Impact factor: 2.967

Review 6. t(8;21) Acute Myeloid Leukemia as a Paradigm for the Understanding of Leukemogenesis at the Level of Gene Regulation and Chromatin Programming.

Authors: Sophie Kellaway; Paulynn S Chin; Farnaz Barneh; Constanze Bonifer; Olaf Heidenreich
Journal: Cells Date: 2020-12-13 Impact factor: 6.600