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Literature DB >> 27909216

Molecular determinants of pathogenesis and clinical phenotype in myeloproliferative neoplasms.

Jacob Grinfeld^1,2, Jyoti Nangalia^1,2, Anthony R Green^3,2.

Abstract

The myeloproliferative neoplasms are a heterogeneous group of clonal disorders characterized by the overproduction of mature cells in the peripheral blood, together with an increased risk of thrombosis and progression to acute myeloid leukemia. The majority of patients with Philadelphia-chromosome negative myeloproliferative neoplasms harbor somatic mutations in Janus kinase 2, leading to constitutive activation. Acquired mutations in calreticulin or myeloproliferative leukemia virus oncogene are found in a significant number of patients with essential thrombocythemia or myelofibrosis, and mutations in numerous epigenetic regulators and spliceosome components are also seen. Although the cellular and molecular consequences of many of these mutations remain unclear, it seems likely that they interact with germline and microenvironmental factors to influence disease pathogenesis. This review will focus on the determinants of specific myeloproliferative neoplasm phenotypes as well as on how an improved understanding of molecular mechanisms can inform our understanding of the disease entities themselves. Copyright© Ferrata Storti Foundation.

Entities: Chemical

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Year: 2016 PMID： 27909216 PMCID： PMC5210228 DOI： 10.3324/haematol.2014.113845

Source DB: PubMed Journal: Haematologica ISSN： 0390-6078 Impact factor: 9.941

127 in total

1. Definition of subtypes of essential thrombocythaemia and relation to polycythaemia vera based on JAK2 V617F mutation status: a prospective study.

Authors: Peter J Campbell; Linda M Scott; Georgina Buck; Keith Wheatley; Clare L East; Joanne T Marsden; Audrey Duffy; Elaine M Boyd; Anthony J Bench; Mike A Scott; George S Vassiliou; Donald W Milligan; Steve R Smith; Wendy N Erber; David Bareford; Bridget S Wilkins; John T Reilly; Claire N Harrison; Anthony R Green
Journal: Lancet Date: 2005-12-03 Impact factor: 79.321

2. Clinical effect of driver mutations of JAK2, CALR, or MPL in primary myelofibrosis.

Authors: Elisa Rumi; Daniela Pietra; Cristiana Pascutto; Paola Guglielmelli; Alejandra Martínez-Trillos; Ilaria Casetti; Dolors Colomer; Lisa Pieri; Marta Pratcorona; Giada Rotunno; Emanuela Sant'Antonio; Marta Bellini; Chiara Cavalloni; Carmela Mannarelli; Chiara Milanesi; Emanuela Boveri; Virginia Ferretti; Cesare Astori; Vittorio Rosti; Francisco Cervantes; Giovanni Barosi; Alessandro M Vannucchi; Mario Cazzola
Journal: Blood Date: 2014-07-01 Impact factor: 22.113

Review 3. Molecular insights into regulation of JAK2 in myeloproliferative neoplasms.

Authors: Olli Silvennoinen; Stevan R Hubbard
Journal: Blood Date: 2015-03-30 Impact factor: 22.113

4. Activating mutation in the tyrosine kinase JAK2 in polycythemia vera, essential thrombocythemia, and myeloid metaplasia with myelofibrosis.

Authors: Ross L Levine; Martha Wadleigh; Jan Cools; Benjamin L Ebert; Gerlinde Wernig; Brian J P Huntly; Titus J Boggon; Iwona Wlodarska; Jennifer J Clark; Sandra Moore; Jennifer Adelsperger; Sumin Koo; Jeffrey C Lee; Stacey Gabriel; Thomas Mercher; Alan D'Andrea; Stefan Fröhling; Konstanze Döhner; Peter Marynen; Peter Vandenberghe; Ruben A Mesa; Ayalew Tefferi; James D Griffin; Michael J Eck; William R Sellers; Matthew Meyerson; Todd R Golub; Stephanie J Lee; D Gary Gilliland
Journal: Cancer Cell Date: 2005-04 Impact factor: 31.743

5. Novel mutations in the inhibitory adaptor protein LNK drive JAK-STAT signaling in patients with myeloproliferative neoplasms.

Authors: Stephen T Oh; Erin F Simonds; Carol Jones; Matthew B Hale; Yury Goltsev; Kenneth D Gibbs; Jason D Merker; James L Zehnder; Garry P Nolan; Jason Gotlib
Journal: Blood Date: 2010-04-19 Impact factor: 22.113

6. JAK-STAT pathway activation in malignant and nonmalignant cells contributes to MPN pathogenesis and therapeutic response.

Authors: Maria Kleppe; Minsuk Kwak; Priya Koppikar; Markus Riester; Matthew Keller; Lennart Bastian; Todd Hricik; Neha Bhagwat; Anna Sophia McKenney; Efthymia Papalexi; Omar Abdel-Wahab; Raajit Rampal; Sachie Marubayashi; Jonathan J Chen; Vincent Romanet; Jordan S Fridman; Jacqueline Bromberg; Julie Teruya-Feldstein; Masato Murakami; Thomas Radimerski; Franziska Michor; Rong Fan; Ross L Levine
Journal: Cancer Discov Date: 2015-01-08 Impact factor: 39.397

7. Somatic mutations of calreticulin in myeloproliferative neoplasms.

Authors: Thorsten Klampfl; Heinz Gisslinger; Ashot S Harutyunyan; Harini Nivarthi; Elisa Rumi; Jelena D Milosevic; Nicole C C Them; Tiina Berg; Bettina Gisslinger; Daniela Pietra; Doris Chen; Gregory I Vladimer; Klaudia Bagienski; Chiara Milanesi; Ilaria Carola Casetti; Emanuela Sant'Antonio; Virginia Ferretti; Chiara Elena; Fiorella Schischlik; Ciara Cleary; Melanie Six; Martin Schalling; Andreas Schönegger; Christoph Bock; Luca Malcovati; Cristiana Pascutto; Giulio Superti-Furga; Mario Cazzola; Robert Kralovics
Journal: N Engl J Med Date: 2013-12-10 Impact factor: 91.245

8. Activation of the thrombopoietin receptor by mutant calreticulin in CALR-mutant myeloproliferative neoplasms.

Authors: Marito Araki; Yinjie Yang; Nami Masubuchi; Yumi Hironaka; Hiraku Takei; Soji Morishita; Yoshihisa Mizukami; Shin Kan; Shuichi Shirane; Yoko Edahiro; Yoshitaka Sunami; Akimichi Ohsaka; Norio Komatsu
Journal: Blood Date: 2016-01-27 Impact factor: 22.113

9. Heterozygous and homozygous JAK2(V617F) states modeled by induced pluripotent stem cells from myeloproliferative neoplasm patients.

Authors: Joseph Saliba; Sofiane Hamidi; Gaëlle Lenglet; Thierry Langlois; Jingkui Yin; Xénia Cabagnols; Lise Secardin; Céline Legrand; Anne Galy; Paule Opolon; Baya Benyahia; Eric Solary; Olivier A Bernard; Longyun Chen; Najet Debili; Hana Raslova; Françoise Norol; William Vainchenker; Isabelle Plo; Antonio Di Stefano
Journal: PLoS One Date: 2013-09-16 Impact factor: 3.240

10. Oncogenic Nras has bimodal effects on stem cells that sustainably increase competitiveness.

Authors: Natacha Bohin; Tiffany Wen; Qing Li; Victor Ng; Jeffrey Magee; Shann-Ching Chen; Kevin Shannon; Sean J Morrison
Journal: Nature Date: 2013-11-27 Impact factor: 49.962

22 in total

Review 1. GATA1 insufficiencies in primary myelofibrosis and other hematopoietic disorders: consequences for therapy.

Authors: Te Ling; John D Crispino; Maria Zingariello; Fabrizio Martelli; Anna Rita Migliaccio
Journal: Expert Rev Hematol Date: 2018-02-19 Impact factor: 2.929

2. Hematopoietic alterations in chronic heart failure patients by somatic mutations leading to clonal hematopoiesis.

Authors: Lena Dorsheimer; Birgit Assmus; Tina Rasper; Christina A Ortmann; Khalil Abou-El-Ardat; Katharina C Kiefer; Jedrzej Hoffmann; Florian Seeger; Halvard Bonig; Stefanie Dimmeler; Andreas M Zeiher; Michael A Rieger
Journal: Haematologica Date: 2019-11-07 Impact factor: 9.941

Review 3. JAK Be Nimble: Reviewing the Development of JAK Inhibitors and JAK Inhibitor Combinations for Special Populations of Patients with Myelofibrosis.

Authors: Andrew T Kuykendall; Rami S Komrokji
Journal: J Immunother Precis Oncol Date: 2021-06-22

4. Production and Characterization of Peptide Antibodies to the C-Terminal of Frameshifted Calreticulin Associated with Myeloproliferative Diseases.

Authors: Farah Perveen Mughal; Ann Christina Bergmann; Ha Uyen Buu Huynh; Sarah Hyllekvist Jørgensen; Inaam Mansha; Meliha Kesmez; Patrick Mark Schürch; Alexandre Pierre André Theocharides; Paul Robert Hansen; Tina Friis; Morten Orebo Holmström; Evaldas Ciplys; Rimantas Slibinskas; Peter Højrup; Gunnar Houen; Nicole Hartwig Trier
Journal: Int J Mol Sci Date: 2022-06-18 Impact factor: 6.208

5. Essential thrombocythaemia progression to the fibrotic phase is associated with a decrease in JAK2 and PDL1 levels.

Authors: Krzysztof Lewandowski; Zuzanna Kanduła; Michał Gniot; Edyta Paczkowska; Paulina Maria Nawrocka; Marzena Wojtaszewska; Michał Janowski; Magdalena Mariak; Luiza Handschuh; Piotr Kozlowski
Journal: Ann Hematol Date: 2022-10-21 Impact factor: 4.030

6. HMGA1 chromatin regulators induce transcriptional networks involved in GATA2 and proliferation during MPN progression.

Authors: Liping Li; Jung-Hyun Kim; Wenyan Lu; Donna M Williams; Joseph Kim; Leslie Cope; Raajit K Rampal; Richard P Koche; Lingling Xian; Li Z Luo; Marija Vasiljevic; Daniel R Matson; Zhizhuang Joe Zhao; Ophelia Rogers; Matthew C Stubbs; Karen Reddy; Antonio-Rodriguez Romero; Bethan Psaila; Jerry L Spivak; Alison R Moliterno; Linda M S Resar
Journal: Blood Date: 2022-05-05 Impact factor: 25.476

7. The thrombopoietin/MPL axis is activated in the Gata1^low mouse model of myelofibrosis and is associated with a defective RPS14 signature.

Authors: M Zingariello; L Sancillo; F Martelli; F Ciaffoni; M Marra; L Varricchio; R A Rana; C Zhao; J D Crispino; A R Migliaccio
Journal: Blood Cancer J Date: 2017-06-16 Impact factor: 11.037

8. Evaluation of vascular events in patients with myeloproliferative syndromes and mutations of either the januskinase-2 or calreticulin gene at the university hospital Krems from 2008 to 2015.

Authors: Sarah Hintermair; Elisabeth Zwickl-Traxler; Martin Pecherstorfer; Josef Singer
Journal: Oncotarget Date: 2018-01-03

Review 9. The ruxolitinib effect: understanding how molecular pathogenesis and epigenetic dysregulation impact therapeutic efficacy in myeloproliferative neoplasms.

Authors: Graeme Greenfield; Suzanne McPherson; Ken Mills; Mary Frances McMullin
Journal: J Transl Med Date: 2018-12-17 Impact factor: 5.531

10. Increased Dkk-1 plasma levels may discriminate disease subtypes in myeloproliferative neoplasms.

Authors: Cristina Mambet; Laura Necula; Simona Mihai; Lilia Matei; Coralia Bleotu; Mihaela Chivu-Economescu; Oana Stanca; Aurelia Tatic; Nicoleta Berbec; Cristiana Tanase; Carmen C Diaconu
Journal: J Cell Mol Med Date: 2018-07-05 Impact factor: 5.295