Literature DB >> 27174585

Targeted next-generation sequencing identifies a subset of idiopathic hypereosinophilic syndrome with features similar to chronic eosinophilic leukemia, not otherwise specified.

Sa A Wang1, Wayne Tam2, Albert G Tsai3, Daniel A Arber3, Robert P Hasserjian4, Julia T Geyer2, Tracy I George5, David R Czuchlewski5, Kathryn Foucar5, Heesun J Rogers6, Eric D Hsi6, B Bryan Rea7, Adam Bagg7, Paola Dal Cin8, Chong Zhao1, Todd W Kelley9, Srdan Verstovsek10, Carlos Bueso-Ramos1, Attilio Orazi2.   

Abstract

The distinction between chronic eosinophilic leukemia, not otherwise specified and idiopathic hypereosinophilic syndrome largely relies on clonality assessment. Prior to the advent of next-generation sequencing, clonality was usually determined by cytogenetic analysis. We applied targeted next-generation sequencing panels designed for myeloid neoplasms to bone marrow specimens from a cohort of idiopathic hypereosinophilic syndrome patients (n=51), and assessed the significance of mutations in conjunction with clinicopathological features. The findings were further compared with those of 17 chronic eosinophilic leukemia, not otherwise specified patients defined by their abnormal cytogenetics and/or increased blasts. Mutations were detected in 14/51 idiopathic hypereosinophilic syndrome patients (idiopathic hypereosinophilic syndrome/next-generation sequencing-positive) (28%), involving single gene in 7 and ≥2 in 7 patients. The more frequently mutated genes included ASXL1 (43%), TET2 (36%), EZH2 (29%), SETBP1 (22%), CBL (14%), and NOTCH1 (14%). Idiopathic hypereosinophilic syndrome/next-generation sequencing-positive patients showed a number of clinical features and bone marrow findings resembling chronic eosinophilic leukemia, not otherwise specified. Chronic eosinophilic leukemia, not otherwise specified patients showed a disease-specific survival of 14.4 months, markedly inferior to idiopathic hypereosinophilic syndrome/next-generation sequencing-negative (P<0.001), but not significantly different from idiopathic hypereosinophilic syndrome/next-generation sequencing-positive (P=0.117). These data suggest that targeted next-generation sequencing helps to establish clonality in a subset of patients with hypereosinophilia that would otherwise be classified as idiopathic hypereosinophilic syndrome. In conjunction with other diagnostic features, mutation data can be used to establish a diagnosis of chronic eosinophilic leukemia, not otherwise specified in patients presenting with hypereosinophilia.

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Year:  2016        PMID: 27174585     DOI: 10.1038/modpathol.2016.75

Source DB:  PubMed          Journal:  Mod Pathol        ISSN: 0893-3952            Impact factor:   7.842


  39 in total

1.  Chronic eosinophilic leukemia presenting with autoimmune hemolytic anemia and erythrophagocytosis by eosinophils.

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Journal:  Am J Hematol       Date:  2006-06       Impact factor: 10.047

2.  Clonal hematopoiesis of indeterminate potential and its distinction from myelodysplastic syndromes.

Authors:  David P Steensma; Rafael Bejar; Siddhartha Jaiswal; R Coleman Lindsley; Mikkael A Sekeres; Robert P Hasserjian; Benjamin L Ebert
Journal:  Blood       Date:  2015-04-30       Impact factor: 22.113

3.  Nuclear hypersegmentation of neutrophils, eosinophils, and basophils due to hydroxycarbamide (hydroxyurea).

Authors:  Xiangdong Xu
Journal:  Blood       Date:  2014-08-28       Impact factor: 22.113

4.  Correlation of mutation profile and response in patients with myelofibrosis treated with ruxolitinib.

Authors:  Keyur P Patel; Kate J Newberry; Rajyalakshmi Luthra; Elias Jabbour; Sherry Pierce; Jorge Cortes; Rajesh Singh; Meenakshi Mehrotra; Mark J Routbort; Madan Luthra; Taghi Manshouri; Fabio P Santos; Hagop Kantarjian; Srdan Verstovsek
Journal:  Blood       Date:  2015-06-29       Impact factor: 22.113

5.  Clonal hematopoiesis and blood-cancer risk inferred from blood DNA sequence.

Authors:  Giulio Genovese; Anna K Kähler; Robert E Handsaker; Johan Lindberg; Samuel A Rose; Samuel F Bakhoum; Kimberly Chambert; Eran Mick; Benjamin M Neale; Menachem Fromer; Shaun M Purcell; Oscar Svantesson; Mikael Landén; Martin Höglund; Sören Lehmann; Stacey B Gabriel; Jennifer L Moran; Eric S Lander; Patrick F Sullivan; Pamela Sklar; Henrik Grönberg; Christina M Hultman; Steven A McCarroll
Journal:  N Engl J Med       Date:  2014-11-26       Impact factor: 91.245

6.  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

Review 7.  The 2008 revision of the World Health Organization (WHO) classification of myeloid neoplasms and acute leukemia: rationale and important changes.

Authors:  James W Vardiman; Jüergen Thiele; Daniel A Arber; Richard D Brunning; Michael J Borowitz; Anna Porwit; Nancy Lee Harris; Michelle M Le Beau; Eva Hellström-Lindberg; Ayalew Tefferi; Clara D Bloomfield
Journal:  Blood       Date:  2009-04-08       Impact factor: 22.113

8.  The shadowlands of MDS: idiopathic cytopenias of undetermined significance (ICUS) and clonal hematopoiesis of indeterminate potential (CHIP).

Authors:  Luca Malcovati; Mario Cazzola
Journal:  Hematology Am Soc Hematol Educ Program       Date:  2015

9.  Atypical chronic myeloid leukemia is clinically distinct from unclassifiable myelodysplastic/myeloproliferative neoplasms.

Authors:  Sa A Wang; Robert P Hasserjian; Patricia S Fox; Heesun J Rogers; Julia T Geyer; Devon Chabot-Richards; Elizabeth Weinzierl; Joseph Hatem; Jesse Jaso; Rashmi Kanagal-Shamanna; Francesco C Stingo; Keyur P Patel; Meenakshi Mehrotra; Carlos Bueso-Ramos; Ken H Young; Courtney D Dinardo; Srdan Verstovsek; Ramon V Tiu; Adam Bagg; Eric D Hsi; Daniel A Arber; Kathryn Foucar; Raja Luthra; Attilio Orazi
Journal:  Blood       Date:  2014-03-13       Impact factor: 22.113

10.  Somatic CALR mutations in myeloproliferative neoplasms with nonmutated JAK2.

Authors:  J Nangalia; C E Massie; E J Baxter; F L Nice; G Gundem; D C Wedge; E Avezov; J Li; K Kollmann; D G Kent; A Aziz; A L Godfrey; J Hinton; I Martincorena; P Van Loo; A V Jones; P Guglielmelli; P Tarpey; H P Harding; J D Fitzpatrick; C T Goudie; C A Ortmann; S J Loughran; K Raine; D R Jones; A P Butler; J W Teague; S O'Meara; S McLaren; M Bianchi; Y Silber; D Dimitropoulou; D Bloxham; L Mudie; M Maddison; B Robinson; C Keohane; C Maclean; K Hill; K Orchard; S Tauro; M-Q Du; M Greaves; D Bowen; B J P Huntly; C N Harrison; N C P Cross; D Ron; A M Vannucchi; E Papaemmanuil; P J Campbell; A R Green
Journal:  N Engl J Med       Date:  2013-12-10       Impact factor: 91.245
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  13 in total

1.  Cytogenetically cryptic ZMYM2-FLT3 and DIAPH1-PDGFRB gene fusions in myeloid neoplasms with eosinophilia.

Authors:  M Jawhar; N Naumann; M Knut; J Score; M Ghazzawi; B Schneider; K-A Kreuzer; M Hallek; H G Drexler; J Chacko; L Wallis; A Fabarius; G Metzgeroth; W-K Hofmann; A Chase; W Tapper; A Reiter; N C P Cross
Journal:  Leukemia       Date:  2017-07-28       Impact factor: 11.528

2.  BRAF mutation as a novel driver of eosinophilic cystitis.

Authors:  Michael Y Choi; Igor F Tsigelny; Amelie Boichard; Åge A Skjevik; Ahmed Shabaik; Razelle Kurzrock
Journal:  Cancer Biol Ther       Date:  2017-08-22       Impact factor: 4.742

Review 3.  Diagnosis and Novel Approaches to the Treatment of Hypereosinophilic Syndromes.

Authors:  Melanie C Dispenza; Bruce S Bochner
Journal:  Curr Hematol Malig Rep       Date:  2018-06       Impact factor: 3.952

4.  A novel activating JAK1 mutation in chronic eosinophilic leukemia.

Authors:  William Shomali; Alisa Damnernsawad; Talent Theparee; David Sampson; Quinlan Morrow; Fei Yang; Sebastian Fernandez-Pol; Richard Press; James Zehnder; Jeffrey W Tyner; Jason Gotlib
Journal:  Blood Adv       Date:  2021-09-28

Review 5.  Updates on eosinophilic disorders.

Authors:  Alexandar Tzankov; Kaaren K Reichard; Robert P Hasserjian; Daniel A Arber; Attilio Orazi; Sa A Wang
Journal:  Virchows Arch       Date:  2022-09-07       Impact factor: 4.535

Review 6.  Clinical and Molecular Approach to Adult-Onset, Neoplastic Monocytosis.

Authors:  Rory M Shallis; Alexa J Siddon; Amer M Zeidan
Journal:  Curr Hematol Malig Rep       Date:  2021-04-22       Impact factor: 3.952

7.  Bone marrow morphology is a strong discriminator between chronic eosinophilic leukemia, not otherwise specified and reactive idiopathic hypereosinophilic syndrome.

Authors:  Sa A Wang; Robert P Hasserjian; Wayne Tam; Albert G Tsai; Julia T Geyer; Tracy I George; Kathryn Foucar; Heesun J Rogers; Eric D Hsi; Bryan A Rea; Adam Bagg; Carlos E Bueso-Ramos; Daniel A Arber; Srdan Verstovsek; Attilio Orazi
Journal:  Haematologica       Date:  2017-05-11       Impact factor: 9.941

Review 8.  (A Critical Appraisal of) Classification of Hypereosinophilic Disorders.

Authors:  Jean Emmanuel Kahn; Matthieu Groh; Guillaume Lefèvre
Journal:  Front Med (Lausanne)       Date:  2017-12-05

Review 9.  The 2016 WHO classification and diagnostic criteria for myeloproliferative neoplasms: document summary and in-depth discussion.

Authors:  Tiziano Barbui; Jürgen Thiele; Heinz Gisslinger; Hans Michael Kvasnicka; Alessandro M Vannucchi; Paola Guglielmelli; Attilio Orazi; Ayalew Tefferi
Journal:  Blood Cancer J       Date:  2018-02-09       Impact factor: 11.037

Review 10.  Eosinophils from Physiology to Disease: A Comprehensive Review.

Authors:  Giuseppe A Ramirez; Mona-Rita Yacoub; Marco Ripa; Daniele Mannina; Adriana Cariddi; Nicoletta Saporiti; Fabio Ciceri; Antonella Castagna; Giselda Colombo; Lorenzo Dagna
Journal:  Biomed Res Int       Date:  2018-01-28       Impact factor: 3.411
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