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Literature DB >> 34615655

Sex-Biased ZRSR2 Mutations in Myeloid Malignancies Impair Plasmacytoid Dendritic Cell Activation and Apoptosis.

Katsuhiro Togami¹, Sun Sook Chung¹, Vikas Madan², Christopher A G Booth¹, Christopher M Kenyon¹, Lucia Cabal-Hierro¹, Justin Taylor^3,4, Sunhee S Kim¹, Gabriel K Griffin^5,6, Mahmoud Ghandi⁶, Jia Li², Yvonne Y Li¹, Fanny Angelot-Delettre⁷, Sabeha Biichle⁷, Michael Seiler⁸, Silvia Buonamici⁸, Scott B Lovitch⁵, Abner Louissaint⁹, Elizabeth A Morgan⁵, Fabrice Jardin¹⁰, Pier Paolo Piccaluga^11,12,13, David M Weinstock^1,6, Peter S Hammerman¹, Henry Yang², Marina Konopleva¹⁴, Naveen Pemmaraju¹⁴, Francine Garnache-Ottou⁷, Omar Abdel-Wahab³, H Phillip Koeffler^2,15,16, Andrew A Lane^17,6,18.

Abstract

Blastic plasmacytoid dendritic cell neoplasm (BPDCN) is an aggressive leukemia of plasmacytoid dendritic cells (pDC). BPDCN occurs at least three times more frequently in men than in women, but the reasons for this sex bias are unknown. Here, studying genomics of primary BPDCN and modeling disease-associated mutations, we link acquired alterations in RNA splicing to abnormal pDC development and inflammatory response through Toll-like receptors. Loss-of-function mutations in ZRSR2, an X chromosome gene encoding a splicing factor, are enriched in BPDCN, and nearly all mutations occur in males. ZRSR2 mutation impairs pDC activation and apoptosis after inflammatory stimuli, associated with intron retention and inability to upregulate the transcription factor IRF7. In vivo, BPDCN-associated mutations promote pDC expansion and signatures of decreased activation. These data support a model in which male-biased mutations in hematopoietic progenitors alter pDC function and confer protection from apoptosis, which may impair immunity and predispose to leukemic transformation. SIGNIFICANCE: Sex bias in cancer is well recognized, but the underlying mechanisms are incompletely defined. We connect X chromosome mutations in ZRSR2 to an extremely male-predominant leukemia. Aberrant RNA splicing induced by ZRSR2 mutation impairs dendritic cell inflammatory signaling, interferon production, and apoptosis, revealing a sex- and lineage-related tumor suppressor pathway.This article is highlighted in the In This Issue feature, p. 275. ©2021 The Authors; Published by the American Association for Cancer Research.

Entities: Chemical

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Year: 2021 PMID： 34615655 PMCID： PMC8831459 DOI： 10.1158/2159-8290.CD-20-1513

Source DB: PubMed Journal: Cancer Discov ISSN： 2159-8274 Impact factor: 38.272

73 in total

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Journal: EMBO J Date: 2015-12-28 Impact factor: 11.598

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Authors: Eric Deconinck; Tony Petrella; Francine Garnache Ottou
Journal: Hematol Oncol Clin North Am Date: 2020-03-23 Impact factor: 3.722

3. Age-related clonal hematopoiesis associated with adverse outcomes.

Authors: Siddhartha Jaiswal; Pierre Fontanillas; Jason Flannick; Alisa Manning; Peter V Grauman; Brenton G Mar; R Coleman Lindsley; Craig H Mermel; Noel Burtt; Alejandro Chavez; John M Higgins; Vladislav Moltchanov; Frank C Kuo; Michael J Kluk; Brian Henderson; Leena Kinnunen; Heikki A Koistinen; Claes Ladenvall; Gad Getz; Adolfo Correa; Benjamin F Banahan; Stacey Gabriel; Sekar Kathiresan; Heather M Stringham; Mark I McCarthy; Michael Boehnke; Jaakko Tuomilehto; Christopher Haiman; Leif Groop; Gil Atzmon; James G Wilson; Donna Neuberg; David Altshuler; Benjamin L Ebert
Journal: N Engl J Med Date: 2014-11-26 Impact factor: 91.245

4. Frequent pathway mutations of splicing machinery in myelodysplasia.

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Journal: Nature Date: 2011-09-11 Impact factor: 49.962

5. Landscape of X chromosome inactivation across human tissues.

Authors: Taru Tukiainen; Alexandra-Chloé Villani; Angela Yen; Manuel A Rivas; Jamie L Marshall; Rahul Satija; Matt Aguirre; Laura Gauthier; Mark Fleharty; Andrew Kirby; Beryl B Cummings; Stephane E Castel; Konrad J Karczewski; François Aguet; Andrea Byrnes; Tuuli Lappalainen; Aviv Regev; Kristin G Ardlie; Nir Hacohen; Daniel G MacArthur
Journal: Nature Date: 2017-10-11 Impact factor: 49.962

6. TET2 mutations, myelodysplastic features, and a distinct immunoprofile characterize blastic plasmacytoid dendritic cell neoplasm in the bone marrow.

Authors: Khaled Alayed; Keyur P Patel; Sergej Konoplev; Rajesh R Singh; Mark J Routbort; Neelima Reddy; Naveen Pemmaraju; Liping Zhang; Abdulaziz Al Shaikh; Tariq N Aladily; Nitin Jain; Rajyalakshmi Luthra; L Jeffrey Medeiros; Joseph D Khoury
Journal: Am J Hematol Date: 2013-09-30 Impact factor: 10.047

7. PD1/PD-L1 Expression in Blastic Plasmacytoid Dendritic Cell Neoplasm.

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Journal: Cancers (Basel) Date: 2019-05-19 Impact factor: 6.639

8. Coordinated alterations in RNA splicing and epigenetic regulation drive leukaemogenesis.

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Journal: Nature Date: 2019-10-02 Impact factor: 69.504

9. Fast and accurate short read alignment with Burrows-Wheeler transform.

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Journal: Bioinformatics Date: 2009-05-18 Impact factor: 6.937

10. GSVA: gene set variation analysis for microarray and RNA-seq data.

Authors: Sonja Hänzelmann; Robert Castelo; Justin Guinney
Journal: BMC Bioinformatics Date: 2013-01-16 Impact factor: 3.169

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2. Integrative molecular profiling identifies two molecularly and clinically distinct subtypes of blastic plasmacytoid dendritic cell neoplasm.

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3. Allogeneic hematopoietic cell transplantation for patients with blastic plasmacytoid dendritic cell neoplasm (BPDCN).

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Journal: Bone Marrow Transplant Date: 2021-10-11 Impact factor: 5.174

4. Integrated Clinical Genotype-Phenotype Characteristics of Blastic Plasmacytoid Dendritic Cell Neoplasm.

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5. Single-Cell Multiomics Reveals Clonal T-Cell Expansions and Exhaustion in Blastic Plasmacytoid Dendritic Cell Neoplasm.

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