Human [CD30.sup.+] B cells represent a unique subset related to Hodgkin lymphoma cells

Very few B cells in germinal centers (GCs) and extrafollicular (EF) regions of lymph nodes express CD30. Their specific features and relationship to [CD30.sup.-]expressing Hodgkin and Reed/Sternberg (HRS) cells of Hodgkin lymphoma are unclear but highly relevant, because numerous patients with lymph...

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Veröffentlicht in:	The Journal of clinical investigation 2018-07, Vol.128 (7), p.2996
Hauptverfasser:	Weniger, Marc A, Tiacci, Enrico, Schneider, Stefanie, Arnolds, Judith, Ruschenbaum, Sabrina, Duppach, Janine, Seifert, Marc, Doring, Claudia, Hansmann, Martin-Leo, Kuppers, Ralf
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Sprache:	eng
Schlagworte:	B cells Gene expression Genetic aspects Hodgkin's disease Lymph nodes Membrane proteins Physiological aspects Risk factors
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container_title	The Journal of clinical investigation
container_volume	128
creator	Weniger, Marc A Tiacci, Enrico Schneider, Stefanie Arnolds, Judith Ruschenbaum, Sabrina Duppach, Janine Seifert, Marc Doring, Claudia Hansmann, Martin-Leo Kuppers, Ralf
description	Very few B cells in germinal centers (GCs) and extrafollicular (EF) regions of lymph nodes express CD30. Their specific features and relationship to [CD30.sup.-]expressing Hodgkin and Reed/Sternberg (HRS) cells of Hodgkin lymphoma are unclear but highly relevant, because numerous patients with lymphoma are currently treated with an anti-CD30 immunotoxin. We performed a comprehensive analysis of human [CD30.sup.+] B cells. Phenotypic and IgV gene analyses indicated that [CD30.sup.+] GC B lymphocytes represent typical GC B cells, and that [CD30.sup.+] EF B cells are mostly post-GC B cells. The transcriptomes of [CD30.sup.+] GC and EF B cells largely overlapped, sharing a strong MYC signature, but were strikingly different from conventional GC B cells and memory B and plasma cells, respectively. [CD30.sup.+] GC B cells represent [MYC.sup.+] centrocytes redifferentiating into centroblasts; [CD30.sup.+] EF B cells represent active, proliferating memory B cells. HRS cells shared typical transcriptome patterns with [CD30.sup.+] B cells, suggesting that they originate from these lymphocytes or acquire their characteristic features during lymphomagenesis. By comparing HRS to normal [CD30.sup.+] B cells we redefined aberrant and disease-specific features of HRS cells. A remarkable downregulation of genes regulating genomic stability and cytokinesis in HRS cells may explain their genomic instability and multinuclearity.
doi_str_mv	10.1172/JCI95993
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Their specific features and relationship to [CD30.sup.-]expressing Hodgkin and Reed/Sternberg (HRS) cells of Hodgkin lymphoma are unclear but highly relevant, because numerous patients with lymphoma are currently treated with an anti-CD30 immunotoxin. We performed a comprehensive analysis of human [CD30.sup.+] B cells. Phenotypic and IgV gene analyses indicated that [CD30.sup.+] GC B lymphocytes represent typical GC B cells, and that [CD30.sup.+] EF B cells are mostly post-GC B cells. The transcriptomes of [CD30.sup.+] GC and EF B cells largely overlapped, sharing a strong MYC signature, but were strikingly different from conventional GC B cells and memory B and plasma cells, respectively. [CD30.sup.+] GC B cells represent [MYC.sup.+] centrocytes redifferentiating into centroblasts; [CD30.sup.+] EF B cells represent active, proliferating memory B cells. HRS cells shared typical transcriptome patterns with [CD30.sup.+] B cells, suggesting that they originate from these lymphocytes or acquire their characteristic features during lymphomagenesis. By comparing HRS to normal [CD30.sup.+] B cells we redefined aberrant and disease-specific features of HRS cells. 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HRS cells shared typical transcriptome patterns with [CD30.sup.+] B cells, suggesting that they originate from these lymphocytes or acquire their characteristic features during lymphomagenesis. By comparing HRS to normal [CD30.sup.+] B cells we redefined aberrant and disease-specific features of HRS cells. 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Their specific features and relationship to [CD30.sup.-]expressing Hodgkin and Reed/Sternberg (HRS) cells of Hodgkin lymphoma are unclear but highly relevant, because numerous patients with lymphoma are currently treated with an anti-CD30 immunotoxin. We performed a comprehensive analysis of human [CD30.sup.+] B cells. Phenotypic and IgV gene analyses indicated that [CD30.sup.+] GC B lymphocytes represent typical GC B cells, and that [CD30.sup.+] EF B cells are mostly post-GC B cells. The transcriptomes of [CD30.sup.+] GC and EF B cells largely overlapped, sharing a strong MYC signature, but were strikingly different from conventional GC B cells and memory B and plasma cells, respectively. [CD30.sup.+] GC B cells represent [MYC.sup.+] centrocytes redifferentiating into centroblasts; [CD30.sup.+] EF B cells represent active, proliferating memory B cells. HRS cells shared typical transcriptome patterns with [CD30.sup.+] B cells, suggesting that they originate from these lymphocytes or acquire their characteristic features during lymphomagenesis. By comparing HRS to normal [CD30.sup.+] B cells we redefined aberrant and disease-specific features of HRS cells. A remarkable downregulation of genes regulating genomic stability and cytokinesis in HRS cells may explain their genomic instability and multinuclearity.</abstract><pub>American Society for Clinical Investigation</pub><doi>10.1172/JCI95993</doi><tpages>12</tpages></addata></record>
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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Journals@Ovid Ovid Autoload; PubMed Central; Alma/SFX Local Collection
subjects	B cells Gene expression Genetic aspects Hodgkin's disease Lymph nodes Membrane proteins Physiological aspects Risk factors
title	Human [CD30.sup.+] B cells represent a unique subset related to Hodgkin lymphoma cells
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