Literature DB >> 26449716

The Epstein-Barr Virus (EBV) in T Cell and NK Cell Lymphomas: Time for a Reassessment.

A A Gru1, B H Haverkos2, A G Freud3,4, J Hastings5,6, N B Nowacki3, C Barrionuevo7, C E Vigil8, R Rochford9, Y Natkunam4, R A Baiocchi10,6, P Porcu11,12,13.   

Abstract

While Epstein-Barr virus (EBV) was initially discovered and characterized as an oncogenic virus in B cell neoplasms, it also plays a complex and multifaceted role in T/NK cell lymphomas. In B cell lymphomas, EBV-encoded proteins have been shown to directly promote immortalization and proliferation through stimulation of the NF-κB pathway and increased expression of anti-apoptotic genes. In the context of mature T/NK lymphomas (MTNKL), with the possible exception on extranodal NK/T cell lymphoma (ENKTL), the virus likely plays a more diverse and nuanced role. EBV has been shown to shape the tumor microenvironment by promoting Th2-skewed T cell responses and by increasing the expression of the immune checkpoint ligand PD-L1. The type of cell infected, the amount of plasma EBV DNA, and the degree of viral lytic replication have all been proposed to have prognostic value in T/NK cell lymphomas. Latency patterns of EBV infection have been defined using EBV-infected B cell models and have not been definitively established in T/NK cell lymphomas. Identifying the expression profile of EBV lytic proteins could allow for individualized therapy with the use of antiviral medications. More work needs to be done to determine whether EBV-associated MTNKL have distinct biological and clinical features, which can be leveraged for risk stratification, disease monitoring, and therapeutic purposes.

Entities:  

Keywords:  EBV; Latent; Lytic; Prognosis; T/NK-cell lymphoma

Mesh:

Year:  2015        PMID: 26449716      PMCID: PMC4679542          DOI: 10.1007/s11899-015-0292-z

Source DB:  PubMed          Journal:  Curr Hematol Malig Rep        ISSN: 1558-8211            Impact factor:   3.952


  173 in total

Review 1.  Burkitt lymphoma: the role of Epstein-Barr virus revisited.

Authors:  Sebastian Grömminger; Josef Mautner; Georg W Bornkamm
Journal:  Br J Haematol       Date:  2012-03       Impact factor: 6.998

Review 2.  New targets of therapy in T-cell lymphomas.

Authors:  Jack Erter; Lapo Alinari; Kamruz Darabi; Metin Gurcan; Ramiro Garzon; Guido Marcucci; Mark A Bechtel; Henry Wong; Pierluigi Porcu
Journal:  Curr Drug Targets       Date:  2010-04       Impact factor: 3.465

3.  Distinction between Epstein-Barr virus type A (EBNA 2A) and type B (EBNA 2B) isolates extends to the EBNA 3 family of nuclear proteins.

Authors:  M Rowe; L S Young; K Cadwallader; L Petti; E Kieff; A B Rickinson
Journal:  J Virol       Date:  1989-03       Impact factor: 5.103

4.  Expression of Epstein-Barr virus-encoded proteins in extranodal NK/T-cell Lymphoma, nasal type (ENKL): differences in biologic and clinical behaviors of LMP1-positive and -negative ENKL.

Authors:  Naoko Kanemitsu; Yasushi Isobe; Azuchi Masuda; Shuji Momose; Morihiro Higashi; Jun-ichi Tamaru; Koichi Sugimoto; Norio Komatsu
Journal:  Clin Cancer Res       Date:  2012-02-27       Impact factor: 12.531

5.  Nodal cytotoxic molecule (CM)-positive Epstein-Barr virus (EBV)-associated peripheral T cell lymphoma (PTCL): a clinicopathological study of 26 cases.

Authors:  Seiichi Kato; Emiko Takahashi; Naoko Asano; Tsutomu Tanaka; Nirmeen Megahed; Tomohiro Kinoshita; Shigeo Nakamura
Journal:  Histopathology       Date:  2012-06-13       Impact factor: 5.087

6.  Pretreatment EBV-DNA copy number is predictive of response and toxicities to SMILE chemotherapy for extranodal NK/T-cell lymphoma, nasal type.

Authors:  Yoshinori Ito; Hiroshi Kimura; Yoshinobu Maeda; Chizuko Hashimoto; Fumihiro Ishida; Koji Izutsu; Noriyasu Fukushima; Yasushi Isobe; Jun Takizawa; Yuichi Hasegawa; Hajime Kobayashi; Seiichi Okamura; Hikaru Kobayashi; Motoko Yamaguchi; Junji Suzumiya; Rie Hyo; Shigeo Nakamura; Keisei Kawa; Kazuo Oshimi; Ritsuro Suzuki
Journal:  Clin Cancer Res       Date:  2012-06-06       Impact factor: 12.531

7.  Epigenetic histone modification of Epstein-Barr virus BZLF1 promoter during latency and reactivation in Raji cells.

Authors:  Takayuki Murata; Yutaka Kondo; Atsuko Sugimoto; Daisuke Kawashima; Shinichi Saito; Hiroki Isomura; Teru Kanda; Tatsuya Tsurumi
Journal:  J Virol       Date:  2012-02-22       Impact factor: 5.103

8.  A pathologic study of childhood lymphoma in Taiwan with special reference to peripheral T-cell lymphoma and the association with Epstein-Barr viral infection.

Authors:  S H Lee; I J Su; R L Chen; K S Lin; D T Lin; W M Chuu; K S Lin
Journal:  Cancer       Date:  1991-11-01       Impact factor: 6.860

9.  Lymphomagenesis in the SCID-hu mouse involves abundant production of human interleukin-10.

Authors:  R A Baiocchi; M E Ross; J C Tan; C C Chou; L Sullivan; S Haldar; M Monne; M V Seiden; S K Narula; J Sklar
Journal:  Blood       Date:  1995-02-15       Impact factor: 22.113

Review 10.  Epstein-Barr virus in systemic autoimmune diseases.

Authors:  Anette Holck Draborg; Karen Duus; Gunnar Houen
Journal:  Clin Dev Immunol       Date:  2013-08-24
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  21 in total

1.  Epstein-Barr Virus Type 2 Infects T Cells in Healthy Kenyan Children.

Authors:  Carrie B Coleman; Ibrahim I Daud; Sidney O Ogolla; Julie A Ritchie; Nicholas A Smith; Peter O Sumba; Arlene E Dent; Rosemary Rochford
Journal:  J Infect Dis       Date:  2017-09-15       Impact factor: 5.226

Review 2.  EBV+ lymphoproliferative diseases: opportunities for leveraging EBV as a therapeutic target.

Authors:  Keri Toner; Catherine M Bollard
Journal:  Blood       Date:  2022-02-17       Impact factor: 22.113

3.  Epstein-Barr Virus (EBV) Is Mostly Latent and Clonal in Angioimmunoblastic T Cell Lymphoma (AITL).

Authors:  Racha Bahri; François Boyer; Mohamad Adnan Halabi; Alain Chaunavel; Jean Feuillard; Arnaud Jaccard; Sylvie Ranger-Rogez
Journal:  Cancers (Basel)       Date:  2022-06-12       Impact factor: 6.575

4.  Frequency and clinical correlates of elevated plasma Epstein-Barr virus DNA at diagnosis in peripheral T-cell lymphomas.

Authors:  Bradley M Haverkos; Ying Huang; Alejandro Gru; Preeti Pancholi; Aharon G Freud; Anjali Mishra; Amy S Ruppert; Robert A Baiocchi; Pierluigi Porcu
Journal:  Int J Cancer       Date:  2017-04-15       Impact factor: 7.396

5.  Clinical features and treatment outcome of Epstein-Barr virus-positive nodal T-cell lymphoma.

Authors:  Ki Sun Jung; Su-Hee Cho; Seok Jin Kim; Young Hyeh Ko; Won Seog Kim
Journal:  Int J Hematol       Date:  2016-07-25       Impact factor: 2.490

6.  Epstein-Barr Virus Type 2 Infects T Cells and Induces B Cell Lymphomagenesis in Humanized Mice.

Authors:  Carrie B Coleman; Julie Lang; Lydia A Sweet; Nicholas A Smith; Brian M Freed; Zenggang Pan; Bradley Haverkos; Roberta Pelanda; Rosemary Rochford
Journal:  J Virol       Date:  2018-10-12       Impact factor: 5.103

7.  CD21 (Complement Receptor 2) Is the Receptor for Epstein-Barr Virus Entry into T Cells.

Authors:  Nicholas A Smith; Carrie B Coleman; Benjamin E Gewurz; Rosemary Rochford
Journal:  J Virol       Date:  2020-05-18       Impact factor: 5.103

8.  PD-L1 is upregulated by EBV-driven LMP1 through NF-κB pathway and correlates with poor prognosis in natural killer/T-cell lymphoma.

Authors:  Xi-Wen Bi; Hua Wang; Wen-Wen Zhang; Jing-Hua Wang; Wen-Jian Liu; Zhong-Jun Xia; Hui-Qiang Huang; Wen-Qi Jiang; Yu-Jing Zhang; Liang Wang
Journal:  J Hematol Oncol       Date:  2016-10-13       Impact factor: 17.388

9.  Association between extranodal natural killer/T-cell lymphoma and hepatitis B viral infection: a case-control study.

Authors:  Kefeng Wang; Hang Yang; Wenjun He; Yi Xia; Zhongjun Xia; Su Li; Huiqiang Huang; Zhiming Li; Panpan Liu; Wenqi Jiang
Journal:  J Cancer       Date:  2017-08-22       Impact factor: 4.207

10.  A Rare Case of Angioimmunoblastic T-Cell Lymphoma with Epstein-Barr Virus-Negative Reed-Sternberg-Like B-Cells, Chylous Ascites, and Chylothorax.

Authors:  Mathijs Willemsen; Arne W J H Dielis; Iryna V Samarska; Ad Koster; Arienne M van Marion
Journal:  Case Rep Hematol       Date:  2017-04-12
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