Literature DB >> 21245480

Gene expression analysis uncovers similarity and differences among Burkitt lymphoma subtypes.

Pier Paolo Piccaluga1, Giulia De Falco, Manjunath Kustagi, Anna Gazzola, Claudio Agostinelli, Claudio Tripodo, Eleonora Leucci, Anna Onnis, Annalisa Astolfi, Maria Rosaria Sapienza, Cristiana Bellan, Stefano Lazzi, Lynnette Tumwine, Michael Mawanda, Martin Ogwang, Valeria Calbi, Serena Formica, Andrea Califano, Stefano A Pileri, Lorenzo Leoncini.   

Abstract

Burkitt lymphoma (BL) is classified into 3 clinical subsets: endemic, sporadic, and immunodeficiency-associated BL. So far, possible differences in their gene expression profiles (GEPs) have not been investigated. We studied GEPs of BL subtypes, other B-cell lymphomas, and B lymphocytes; first, we found that BL is a unique molecular entity, distinct from other B-cell malignancies. Indeed, by unsupervised analysis all BLs clearly clustered apart of other lymphomas. Second, we found that BL subtypes presented slight differences in GEPs. Particularly, they differed for genes involved in cell cycle control, B-cell receptor signaling, and tumor necrosis factor/nuclear factor κB pathways. Notably, by reverse engineering, we found that endemic and sporadic BLs diverged for genes dependent on RBL2 activity. Furthermore, we found that all BLs were intimately related to germinal center cells, differing from them for molecules involved in cell proliferation, immune response, and signal transduction. Finally, to validate GEP, we applied immunohistochemistry to a large panel of cases and showed that RBL2 can cooperate with MYC in inducing a neoplastic phenotype in vitro and in vivo. In conclusion, our study provided substantial insights on the pathobiology of BLs, by offering novel evidences that may be relevant for its classification and possibly future treatment.

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Year:  2011        PMID: 21245480     DOI: 10.1182/blood-2010-08-301556

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


  46 in total

1.  Post-transplant molecularly defined Burkitt lymphomas are frequently MYC-negative and characterized by the 11q-gain/loss pattern.

Authors:  Julio Finalet Ferreiro; Julie Morscio; Daan Dierickx; Lukas Marcelis; Gregor Verhoef; Peter Vandenberghe; Thomas Tousseyn; Iwona Wlodarska
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Review 2.  Lymphomas in sub-Saharan Africa--what can we learn and how can we help in improving diagnosis, managing patients and fostering translational research?

Authors:  Kikkeri N Naresh; Martine Raphael; Leona Ayers; Nina Hurwitz; Valeria Calbi; Emily Rogena; Shahin Sayed; Omar Sherman; Hazem A H Ibrahim; Stefano Lazzi; Vasileios Mourmouras; Patricia Rince; Jessie Githanga; Bessie Byakika; Emma Moshi; Muheez Durosinmi; Babatunde J Olasode; Olayiwola A Oluwasola; Effiong E Akang; Yetunde Akenòva; Melissa Adde; Ian Magrath; Lorenzo Leoncini
Journal:  Br J Haematol       Date:  2011-06-28       Impact factor: 6.998

3.  The different epidemiologic subtypes of Burkitt lymphoma share a homogenous micro RNA profile distinct from diffuse large B-cell lymphoma.

Authors:  D Lenze; L Leoncini; M Hummel; S Volinia; C G Liu; T Amato; G De Falco; J Githanga; H Horn; J Nyagol; G Ott; J Palatini; M Pfreundschuh; E Rogena; A Rosenwald; R Siebert; C M Croce; H Stein
Journal:  Leukemia       Date:  2011-06-24       Impact factor: 11.528

Review 4.  The clinicopathologic spectrum of mature aggressive B cell lymphomas.

Authors:  Lisa Rimsza; Stefania Pittaluga; Stephan Dirnhofer; Christiane Copie-Bergman; Laurence de Leval; Fabio Facchetti; Stefano Pileri; Andreas Rosenwald; Andrew Wotherspoon; Falko Fend
Journal:  Virchows Arch       Date:  2017-08-26       Impact factor: 4.064

5.  A shared gene expression signature in mouse models of EBV-associated and non-EBV-associated Burkitt lymphoma.

Authors:  Kathryn T Bieging; Kamonwan Fish; Subbarao Bondada; Richard Longnecker
Journal:  Blood       Date:  2011-10-28       Impact factor: 22.113

6.  Update from the 4th Edition of the World Health Organization Classification of Head and Neck Tumours: Hematolymphoid Tumours.

Authors:  Noah A Brown; Kojo S J Elenitoba-Johnson
Journal:  Head Neck Pathol       Date:  2017-02-28

7.  Platelet-derived growth factor alpha mediates the proliferation of peripheral T-cell lymphoma cells via an autocrine regulatory pathway.

Authors:  P P Piccaluga; M Rossi; C Agostinelli; F Ricci; A Gazzola; S Righi; F Fuligni; M A Laginestra; M Mancini; M R Sapienza; A De Renzo; P L Tazzari; D Gibellini; P Went; F Alviano; P L Zinzani; G P Bagnara; G Inghirami; C Tripodo; S A Pileri
Journal:  Leukemia       Date:  2014-01-31       Impact factor: 11.528

Review 8.  Molecular genetics of childhood, adolescent and young adult non-Hodgkin lymphoma.

Authors:  Rodney R Miles; Rikin K Shah; J Kimble Frazer
Journal:  Br J Haematol       Date:  2016-03-11       Impact factor: 6.998

Review 9.  Cancer of childhood in sub-Saharan Africa.

Authors:  Cristina Stefan; Freddie Bray; Jacques Ferlay; Biying Liu; D Maxwell Parkin
Journal:  Ecancermedicalscience       Date:  2017-07-28

10.  Burkitt lymphoma pathogenesis and therapeutic targets from structural and functional genomics.

Authors:  Roland Schmitz; Ryan M Young; Michele Ceribelli; Sameer Jhavar; Wenming Xiao; Meili Zhang; George Wright; Arthur L Shaffer; Daniel J Hodson; Eric Buras; Xuelu Liu; John Powell; Yandan Yang; Weihong Xu; Hong Zhao; Holger Kohlhammer; Andreas Rosenwald; Philip Kluin; Hans Konrad Müller-Hermelink; German Ott; Randy D Gascoyne; Joseph M Connors; Lisa M Rimsza; Elias Campo; Elaine S Jaffe; Jan Delabie; Erlend B Smeland; Martin D Ogwang; Steven J Reynolds; Richard I Fisher; Rita M Braziel; Raymond R Tubbs; James R Cook; Dennis D Weisenburger; Wing C Chan; Stefania Pittaluga; Wyndham Wilson; Thomas A Waldmann; Martin Rowe; Sam M Mbulaiteye; Alan B Rickinson; Louis M Staudt
Journal:  Nature       Date:  2012-08-12       Impact factor: 49.962
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