Literature DB >> 22812491

Development and characterization of a novel human Waldenström macroglobulinemia cell line: RPCI-WM1, Roswell Park Cancer Institute - Waldenström Macroglobulinemia 1.

Kasyapa S Chitta1, Aneel Paulus, Sikander Ailawadhi, Barbara A Foster, Michael T Moser, Petr Starostik, Aisha Masood, Taimur Sher, Kena C Miller, Dan M Iancu, Jeffrey Conroy, Norma J Nowak, Sheila N Sait, David A Personett, Morton Coleman, Richard R Furman, Peter Martin, Stephen M Ansell, Kelvin Lee, Asher A Chanan-Khan.   

Abstract

Understanding the biology of Waldenström macroglobulinemia is hindered by a lack of preclinical models. We report a novel cell line, RPCI-WM1, from a patient treated for WM. The cell line secretes human immunoglobulin M (h-IgM) with κ-light chain restriction identical to the primary tumor. The cell line has a modal chromosomal number of 46 and harbors chromosomal changes such as deletion of 6q21, monoallelic deletion of 9p21 (CDKN2A), 13q14 (RB1) and 18q21 (BCL-2), with a consistent amplification of 14q32 (immunoglobulin heavy chain; IgH) identical to its founding tumor sample. The clonal relationship is confirmed by identical CDR3 length and single nucleotide polymorphisms as well as a matching IgH sequence of the cell line and founding tumor. Both also harbor a heterozygous, non-synonymous mutation at amino acid 265 in the MYD88 gene (L265P). The cell line expresses most of the cell surface markers present on the parent cells. Overall, RPCI-WM1 represents a valuable model to study Waldenström macroglobulinemia.

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Year:  2012        PMID: 22812491      PMCID: PMC4406272          DOI: 10.3109/10428194.2012.713481

Source DB:  PubMed          Journal:  Leuk Lymphoma        ISSN: 1026-8022


  28 in total

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Authors:  Hans G Drexler; Roderick A F Macleod
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3.  Oncogenically active MYD88 mutations in human lymphoma.

Authors:  Vu N Ngo; Ryan M Young; Roland Schmitz; Sameer Jhavar; Wenming Xiao; Kian-Huat Lim; Holger Kohlhammer; Weihong Xu; Yandan Yang; Hong Zhao; Arthur L Shaffer; Paul Romesser; George Wright; John Powell; Andreas Rosenwald; Hans Konrad Muller-Hermelink; German Ott; Randy D Gascoyne; Joseph M Connors; Lisa M Rimsza; Elias Campo; Elaine S Jaffe; Jan Delabie; Erlend B Smeland; Richard I Fisher; Rita M Braziel; Raymond R Tubbs; J R Cook; Denny D Weisenburger; Wing C Chan; Louis M Staudt
Journal:  Nature       Date:  2010-12-22       Impact factor: 49.962

4.  Residual monotypic plasma cells in patients with waldenstrom macroglobulinemia after therapy.

Authors:  Fareed H Barakat; L Jeffrey Medeiros; Eric X Wei; Sergej Konoplev; Pei Lin; Jeffrey L Jorgensen
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7.  Prognostic factors and response to fludarabine therapy in Waldenstrom's macroglobulinemia: an update of a US intergroup trial (SW0G S9003).

Authors:  Madhav V Dhodapkar; Joth L Jacobson; Morie A Gertz; John J Crowley; Bart Barlogie
Journal:  Semin Oncol       Date:  2003-04       Impact factor: 4.929

Review 8.  How I treat Waldenström macroglobulinemia.

Authors:  Steven P Treon
Journal:  Blood       Date:  2009-07-17       Impact factor: 22.113

9.  Primary therapy of Waldenström macroglobulinemia with bortezomib, dexamethasone, and rituximab: WMCTG clinical trial 05-180.

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Journal:  Leukemia       Date:  2009-02-05       Impact factor: 11.528
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  13 in total

1.  Novel Molecular Mechanism of Regulation of CD40 Ligand by the Transcription Factor GLI2.

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Journal:  J Immunol       Date:  2017-05-01       Impact factor: 5.422

2.  Establishment and characterization of an oral tongue squamous cell carcinoma cell line from a never-smoking patient.

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Journal:  Oral Oncol       Date:  2017-04-03       Impact factor: 5.337

3.  Modulation of the IL-6 Receptor α Underlies GLI2-Mediated Regulation of Ig Secretion in Waldenström Macroglobulinemia Cells.

Authors:  David A Jackson; Timothy D Smith; Nansalmaa Amarsaikhan; Weiguo Han; Matthew S Neil; Shannon K Boi; Anne M Vrabel; Ezequiel J Tolosa; Luciana L Almada; Martin E Fernandez-Zapico; Sherine F Elsawa
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4.  Phosphorylation alters Bim-mediated Mcl-1 stabilization and priming.

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5.  Targeting CD38 with daratumumab is lethal to Waldenström macroglobulinaemia cells.

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6.  Epigenetic targeting of Waldenström macroglobulinemia cells with BET inhibitors synergizes with BCL2 or histone deacetylase inhibition.

Authors:  Stephan J Matissek; Weiguo Han; Mona Karbalivand; Mohamed Sayed; Brendan M Reilly; Shayna Mallat; Shimaa M Ghazal; Manit Munshi; Guang Yang; Steven P Treon; Sarah R Walker; Sherine F Elsawa
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7.  Immunophenotyping of Waldenströms macroglobulinemia cell lines reveals distinct patterns of surface antigen expression: potential biological and therapeutic implications.

Authors:  Aneel Paulus; Kasyapa S Chitta; Paul K Wallace; Pooja P Advani; Sharoon Akhtar; Maja Kuranz-Blake; Sikander Ailawadhi; Asher A Chanan-Khan
Journal:  PLoS One       Date:  2015-04-08       Impact factor: 3.240

8.  Low expression of pro-apoptotic Bcl-2 family proteins sets the apoptotic threshold in Waldenström macroglobulinemia.

Authors:  B T Gaudette; B Dwivedi; K S Chitta; S Poulain; D Powell; P Vertino; X Leleu; S Lonial; A A Chanan-Khan; J Kowalski; L H Boise
Journal:  Oncogene       Date:  2015-04-20       Impact factor: 9.867

9.  Coinhibition of the deubiquitinating enzymes, USP14 and UCHL5, with VLX1570 is lethal to ibrutinib- or bortezomib-resistant Waldenstrom macroglobulinemia tumor cells.

Authors:  A Paulus; S Akhtar; T R Caulfield; K Samuel; H Yousaf; Y Bashir; S M Paulus; D Tran; R Hudec; D Cogen; J Jiang; B Edenfield; A Novak; S M Ansell; T Witzig; P Martin; M Coleman; V Roy; S Ailawadhi; K Chitta; S Linder; A Chanan-Khan
Journal:  Blood Cancer J       Date:  2016-11-04       Impact factor: 11.037

Review 10.  Waldenström macroglobulinemia: clinical and immunological aspects, natural history, cell of origin, and emerging mouse models.

Authors:  Siegfried Janz
Journal:  ISRN Hematol       Date:  2013-09-09
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