1. Abstract 5081: Comprehensive genomic analysis of primary CNS lymphomas (PCNSL) identifies multiple dysregulated genes involved in immune response, regulation of apoptosis, lymphocyte maturation and activation
- Author
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Ellen D. McPhail, Brian P. O'Neill, Maria Beatriz Lopes, David Schiff, William R. Macon, Esteban Braggio, Rafael Fonseca, and Ryan Robetorye
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Cancer Research ,Primary (chemistry) ,Immune system ,medicine.anatomical_structure ,Oncology ,Apoptosis ,Lymphocyte ,Immunology ,medicine ,Biology ,Gene ,Cns lymphomas - Abstract
Introduction: Only few genetic studies have been performed in PCNSL, partly due to the rarity of the tumors and the limited amount of available tissue. Unlike nodal DLBCL, PCNSL is poorly understood in terms of its precise histogenetic origin and molecular pathogenesis. It is still a matter of debate whether PCNSL differs from nodal DLBCL with respect to their molecular features and pathogenesis and also if there is a genomic signature PCNSL-specific. Materials and Methods: To determine the pattern of genetic alterations, 17 immunocompetent (EBV-, HIV-) PCNSL were analyzed by aCGH. Seven cases were analyzed using fresh tumor samples and 10 using formalin-fixed paraffin embedded (FFPE) tissues. B-cell differentiation status was characterized by immunostains for CD10, MUM-1, and BCL-6. The aCGH profile from PCNSL cases was compared with aCGH data obtained from 59 nodal DLBCL. Results: We found a complex karyotype with a median of 21 copy-number abnormalities (CNA) per case (range 10-49). Overall, 18 regions (10 losses and 8 gains) were affected in >20% of cases. Loss of 9p21 (CDKN2A) was the commonest CNA (82% of cases). Other common CNAs were loss of 6q23.3 (TNFAIP3; 59%), 6p21 (HLA genes; 53%), 6q21 (PRDM1; 47%) and gain of 12q21-q24 (53%), 7q21-q31 (35%) and 19q13 (35%). Five novel recurrent focal CNAs were found in PCNSL; loss of 3p21.31, 3q26.32, 10p15.3-p14, 12q24.31 and 16q12.1-q21 (29% of cases each). All of them, excluding –16q12.1-q21, were found either in less than 5% or absent in nodal DLBCL, thus suggesting to be unique to PCNSL. Recurrent homozygous deletions were found in CDKN2A, TMEM30A, TOX and CD58, the latter two involved in T-cell development and activation. CD58 was also recurrently affected by small focal deletions in the Ig-like C2-type domain. Furthermore, DNA sequencing analysis showed missense mutations in the Toll/IL-1 receptor domain of MYD88 in 35% of PCNSLs. Another 34 genes, including B2M, ETV6, MHC class II genes, PRDM1, and TNFRSF10A were homozygously deleted. Bioinformatics analysis including the most commonly affected genes showed an enrichment of networks associated with immune response, NF-kB pathway, proliferation, regulation of the apoptosis and lymphocyte differentiation and activation. Conclusions: We showed evidence of a highly complex genome and identified a subset of genes with potential relevance in PCNSL pathogenesis. The genomic profile described here reinforces the existence of a specific molecular signature in PCNSL, thus helping to genetically differentiate this entity from the nodal DLBCL and related lymphomas. Additionally, the results obtained from FFPE samples are encouraging and larger archival tissue collections can now be analyzed in order to complement the still fragmented knowledge we have of the genetic basis of the disease. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 5081. doi:1538-7445.AM2012-5081
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- 2012