miR expression in MYC-negative DLBCL/BL with partial trisomy 11 is similar to classical Burkitt lymphoma and different from diffuse large B–cell lymphoma

Michalina Zajdel1, Grzegorz Rymkiewicz2, Magdalena Chechlińska1, Katarzyna Błachnio2, Barbara Pieńkowska-Grela2, Beata Grygalewicz2, Krzysztof Goryca3, Maria Cieslikowska1, Zbigniew Bystydzieński2, Paweł Swoboda1, Jan Walewski4, Jan Konrad Siwicki1
1Department of Immunology, Maria Sklodowska-Curie Memorial Centre and Institute of Oncology, Warsaw, Poland
2Department of Pathology and Laboratory Diagnostics, Maria Sklodowska-Curie Memorial Centre and Institute of Oncology, Warsaw, Poland
3Department of Genetics, Maria Sklodowska-Curie Memorial Centre and Institute of Oncology, Warsaw, Poland
4Department of Lymphoid Malignancies, Maria Sklodowska-Curie Memorial Centre and Institute of Oncology, Warsaw, Poland

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Dave SS, Fu K, Wright GW, Lam LT, Kluin P, Boerma EJ, et al. Molecular diagnosis of Burkitt’s lymphoma. N Engl J Med. 2006;354:2431–42.

Swerdlow SH, Campo E, Harris NL, Jaffe ES, Pileri SA, Stein H, et al. WHO classification of tumours of haematopoietic and lymphoid tissues. Lyon: IARC; 2008.

Campo E, Swerdlow SH, Harris NL, Pileri S, Stein H, Jaffe ES. The 2008 WHO classification of lymphoid neoplasms and beyond: evolving concepts and practical applications. Blood. 2011;117:5019–32.

Menon MP, Pittaluga S, Jaffe ES. The histological and biological spectrum of diffuse large B-cell lymphoma in the World Health Organization classification. Cancer J. 2012;18:411–20.

Hasserjian RP, Ott G, Elenitoba-Johnson KS, Balague-Ponz O, de Jong D, de Leval L. Commentary on the WHO classification of tumors of lymphoid tissues (2008): “Gray zone” lymphomas overlapping with Burkitt lymphoma or classical Hodgkin lymphoma. J Hematop. 2009;2:89–95.

Perry AM, Crockett D, Dave BJ, Althof P, Winkler L, Smith LM, et al. B-cell lymphoma, unclassifiable, with features intermediate between diffuse large B-cell lymphoma and Burkitt lymphoma: study of 39 cases. Br J Haematol. 2013;162:40–9.

Salaverria I, Martin-Guerrero I, Wagener R, Kreuz M, Kohler CW, Richter J, et al. A recurrent 11q aberration pattern characterizes a subset of MYC-negative high-grade B-cell lymphomas resembling Burkitt lymphoma. Blood. 2014;123:1187–98.

Aukema SM, Kreuz M, Kohler CW, Rosolowski M, Hasenclever D, Hummel M, et al. Biological characterization of adult MYC-translocation-positive mature B-cell lymphomas other than molecular Burkitt lymphoma. Haematologica. 2014;99:726–35.

Leucci E, Cocco M, Onnis A, De Falco G, van Cleef P, Bellan C, et al. MYC translocation-negative classical Burkitt lymphoma cases: an alternative pathogenetic mechanism involving miRNA deregulation. J Pathol. 2008;216:440–50.

Onnis A, De Falco G, Antonicelli G, Onorati M, Bellan C, Sherman O, et al. Alteration of microRNAs regulated by c-Myc in Burkitt lymphoma. PLoS One. 2010;5.

Pienkowska-Grela B, Rymkiewicz G, Grygalewicz B, Woroniecka R, Krawczyk P, Czyz-Domanska K, et al. Partial trisomy 11, dup(11)(q23q13), as a defect characterizing lymphomas with Burkitt pathomorphology without MYC gene rearrangement. Med Oncol. 2011;28:1589–95.

Di Lisio L, Martinez N, Montes-Moreno S, Piris-Villaespesa M, Sanchez-Beato M, Piris MA. The role of miRNAs in the pathogenesis and diagnosis of B-cell lymphomas. Blood. 2012;120:1782–90.

Metzler M, Wilda M, Busch K, Viehmann S, Borkhardt A. High expression of precursor microRNA-155/BIC RNA in children with Burkitt lymphoma. Genes Chromosomes Cancer. 2004;39:167–9.

van den Berg A, Kroesen BJ, Kooistra K, de Jong D, Briggs J, Blokzijl T, et al. High expression of B-cell receptor inducible gene BIC in all subtypes of Hodgkin lymphoma. Genes Chromosomes Cancer. 2003;37:20–8.

Kluiver J, Poppema S, de Jong D, Blokzijl T, Harms G, Jacobs S, et al. BIC and miR-155 are highly expressed in Hodgkin, primary mediastinal and diffuse large B cell lymphomas. J Pathol. 2005;207:243–9.

Kluiver J, Haralambieva E, de Jong D, Blokzijl T, Jacobs S, Kroesen BJ, et al. Lack of BIC and microRNA miR-155 expression in primary cases of Burkitt lymphoma. Genes Chromosomes Cancer. 2006;45:147–53.

Eis PS, Tam W, Sun L, Chadburn A, Li Z, Gomez MF, et al. Accumulation of miR-155 and BIC RNA in human B cell lymphomas. Proc Natl Acad Sci U S A. 2005;102:3627–32.

Rai D, Karanti S, Jung I, Dahia PL, Aguiar RC. Coordinated expression of microRNA-155 and predicted target genes in diffuse large B-cell lymphoma. Cancer Genet Cytogenet. 2008;181:8–15.

Kluiver J, van den Berg A, de Jong D, Blokzijl T, Harms G, Bouwman E, et al. Regulation of pri-microRNA BIC transcription and processing in Burkitt lymphoma. Oncogene. 2007;26:3769–76.

Lawrie CH, Gal S, Dunlop HM, Pushkaran B, Liggins AP, Pulford K, et al. Detection of elevated levels of tumour-associated microRNAs in serum of patients with diffuse large B-cell lymphoma. Br J Haematol. 2008;141:672–5.

Roehle A, Hoefig KP, Repsilber D, Thorns C, Ziepert M, Wesche KO, et al. MicroRNA signatures characterize diffuse large B-cell lymphomas and follicular lymphomas. Br J Haematol. 2008;142:732–44.

Bui TV, Mendell JT. Myc: maestro of MicroRNAs. Genes Cancer. 2010;1:568–75.

Sander S, Bullinger L, Klapproth K, Fiedler K, Kestler HA, Barth TF, et al. MYC stimulates EZH2 expression by repression of its negative regulator miR-26a. Blood. 2008;112:4202–12.

Li C, Kim SW, Rai D, Bolla AR, Adhvaryu S, Kinney MC, et al. Copy number abnormalities, MYC activity, and the genetic fingerprint of normal B cells mechanistically define the microRNA profile of diffuse large B-cell lymphoma. Blood. 2009;113:6681–90.

Robertus JL, Kluiver J, Weggemans C, Harms G, Reijmers RM, Swart Y, et al. MiRNA profiling in B non-Hodgkin lymphoma: a MYC-related miRNA profile characterizes Burkitt lymphoma. Br J Haematol. 2010;149:896–9.

Jaffe ES, Harris NL, Stein H, Vardiman JW. WHO classification of tumours of haematological and lymphoid tissues. Lyon: IARC; 2001.

Barth TF, Műller S, Pawlita M, Siebert R, Rother JU, Mechtersheimer G, et al. Homogeneous immunophenotype and paucity of secondary genomic aberrations are distinctive features of endemic but not of sporadic Burkitt’s lymphoma and diffuse large B-cell lymphoma with MYC rearrangement. J Pathol. 2004;203:940–5.

Klapper W, Hoster E, Determann O, Oschlies I, van der Laak J, Berger F, et al. Ki-67 as a prognostic marker in mantle cell lymphoma-consensus guidelines of the pathology panel of the European MCL Network. J Hematop. 2009;2:103–11.

Pieńkowska-Grela B, Witkowska A, Grygalewicz B, Rymkiewicz G, Rygier J, Woroniecka R, et al. Frequent aberrations of chromosome 8 in aggressive B-cell non-Hodgkin lymphoma. Cancer Genet Cytogenet. 2005;156:114–21.

Walewski J, Domanska-Czyz K, Rymkiewicz G. Burkitt lymphoma and leukemia. Patients without HIV infection. In: Gökbuget N, Bassan R, Dombretet H, Doubek M, Fielding AK, Foaal R, et al., editors. Recommendations of the European working group for adult ALL. 1st ed. Bremen: UNI-MED Verlag AG; 2011. p. 29–40.

Rymkiewicz G, Błachnio K, Grygalewicz B, Bystydzienski Z, Woroniecka R, Sledz-Gawrońska B, et al. Flow cytometry and cytogenetics of fine needle aspiration biopsy samples is a reliable method for diagnosing Burkitt lymphoma. Evaluation of 78 cases from a single-institution [Abstract 1640]. 2014. Blood, 56th ASH Annual Meeting and Exposition, vol 14, (Supplement).

Braylan RC, Orfao A, Borowitz MJ, Davis BH. Optimal number of reagents required to evaluate hematolymphoid neoplasias: results of an international consensus meeting. Cytometry. 2001;46:23–7.

Woroniecka R, Rymkiewicz G, Grygalewicz B, Błachnio K, Rygier J, Jarmuż-Szymczak M, et al. Cytogenetic and flow cytometry evaluation of Richter syndrome reveals MYC, CDKN2A, IGH alterations with loss of CD52, CD62L and increase of CD71 antigen expression as the most frequent recurrent abnormalities. Am J Clin Pathol. 2015;143:1–11.

Tbakhi A, Edinger M, Myles J, Pohlman B, Tubbs RR. Flow cytometric immunophenotyping of non-Hodgkin’s lymphomas and related disorders. Cytometry. 1996;25:113–24.

Jennings D, Foon KA. Recent advances in flow cytometry: application to the diagnosis of hematologic malignancy. Blood. 1997;90:2863–92.

ISCN. An international system for human cytogenetic nomenclature. Shaffer LG, McGowan-Jordan J, editors. S. Karger, Basel, 2013.

Seegmiller AC, Garcia R, Huang R, Maleki A, Karandikar NJ, Chen W. Simple karyotype and bcl-6 expression predict a diagnosis of Burkitt lymphoma and better survival in IG-MYC rearranged high-grade B-cell lymphomas. Mod Pathol. 2010;23:909–20.

Hans CP, Weisenburger DD, Greiner TC, Gascoyne RD, Delabie J, Ott G, et al. Confirmation of the molecular classification of diffuse large B-cell lymphoma by immunohistochemistry using a tissue microarray. Blood. 2004;103:275–82.

Aukema SM, Siebert R, Schuuring E, van Imhoff GW, Kluin-Nelemans HC, Boerma EJ, et al. Double-hit B-cell lymphomas. Blood. 2011;117:2319–31.

Di Lisio L, Sanchez-Beato M, Gomez-Lopez G, Rodríguez ME, Montes-Moreno S, Mollejo M, et al. microRNA signatures in B-cell lymphomas. Blood Cancer J. 2012;2:e57.

Lenze D, Leoncini L, Hummel M, Volinia S, Liu CG, Amato T, et al. The different epidemiologic subtypes of Burkitt lymphoma share a homogenous microRNA profile distinct from diffuse large B-cell lymphoma. Leukemia. 2011;25:1869–76.

Montes-Moreno S, Martinez N, Sanchez-Espiridion B, Díaz Uriarte R, Rodriguez ME, Saez A, et al. miRNA expression in diffuse large B-cell lymphoma treated with chemoimmunotherapy. Blood. 2011;118:1034–40.

Lawrie CH, Soneji S, Marafioti T, Cooper CD, Palazzo S, Paterson JC, et al. microRNA expression distinguishes between germinal center B cell-like and activated B cell-like subtypes of diffuse large B cell lymphoma. Int J Cancer. 2007;121:1156–61.

Mbulaiteye SM, Anderson WF, Bhatia K, Rosenberg PS, Linet MS, Devesa SS. Trimodal age-specific incidence patterns for Burkitt lymphoma in the United States, 1973–2005. Int J Cancer. 2010;126:1732–9.