FREQUENT MUTATION OF THE BCL-6 PROTO-ONCOGENE IN HIGH GRADE, BUT NOT LOW GRADE, MALT LYMPHOMAS OF THE GASTROINTESTINAL TRACT

BACKGROUND AND OBJECTIVE: Knowledge regarding the molecular pathogenesis and histogenesis of gastrointestinal mucosa-associated lymphoid tissue non-Hodgkin's lymphomas (MALT-NHL) is limited. Mutations of BCL-6, a zinc finger transcription factor implicated in lymphoid development, occur frequently in lymphomas and represent a histogenetic marker of B-cell transit through the germinal center. The distribution of BCL-6 mutations in gastrointestinal MALT-NHL was analyzed in this study. DESIGN AND METHODS: This study was based on 26 gastrointestinal MALT-NHL, including 16 cases of low grade histology and 10 cases of high grade histology. Mutations of BCL-6 were investigated by a combination of polymerase chain reaction-single strand conformation polymorphism and DNA direct sequencing analysis. RESULTS: Mutations of BCL-6 occurred in 6/10 high grade MALT-NHL, whereas they were absent from all low grade cases tested (n = 16; p = 0.001). MALT-NHL harboring BCL-6 mutations included 5 cases of gastric MALT-NHL and 1 case of jejunal MALT-NHL. Mutations were predominantly represented by single nucleotide substitutions which were multiple in most cases. All sequence alterations were unique to individual cases of gastrointestinal MALT-NHL. INTERPRETATION AND CONCLUSIONS: Mutations of BCL-6 occur frequently in high grade gastrointestinal MALT-NHL and display characteristics similar to those of BCL-6 mutations harbored by other B-cell lymphomas. The association of high grade MALT-NHL with BCL-6 mutations corroborates their histogenetic derivation from germinal center-related B-cells and may be of potential pathogenetic relevance for these disorders

Common-variable immunodeficiency-related lymphomas associate with mutations and rearrangements of BCL-6: pathogenetic and histogenetic implications

Common-variable immunodeficiency (CVI) patients develop non-Hodgkin's lymphomas (NHL), mainly B-lineage diffuse large-cell lymphomas (DLCL), with a high relative risk. The molecular pathogenesis of CVI-related NHL (CVI-NHL) is unknown. Here we aimed at providing a detailed molecular characterization of CVI-NHL. Rearrangements of BCL-6 were detected in two thirds of CVI-NHL cases examined. All 3 CVI-NHL also harbored point mutations of the BCL-6 5' noncoding regions, which constitute a marker of B-cell transit through the germinal center (GC). The number and molecular pattern of BCL-6 mutations in CVI-NHL were similar to that detected in DLCL of immunocompetent hosts and in DLCL arising in other immunodeficiency settings. Microsatellite instability occurred in one CVI-NHL devoid of a BCL-6 rearrangement. All CVI-NHL scored negative for genetic lesions of BCL-2, p53, c-MYC, REL as well as for viral infection by EBV and HHV-8. Overall, these data indicate that: similarly to other immunodeficiency-related NHL, involvement of BCL6 occurs frequently also in CVI-NHL; and because BCL-6 mutations are acquired by B cells during GC transit, their occurrence in CVI-NHL suggest that these lymphomas are histogenetically related to GC B cells

Mutation of BAX occurs infrequently in acquired immunodeficiency syndrome-related non-Hodgkin's lymphomas

Acquired immunodeficiency syndrome (AIDS)-related non-Hodgkin's lymphomas (AIDS-NHLs) consistently derive from B cells, are histologically heterogeneous, and are associated with distinct molecular pathways depending upon histology. Recently, it has been proposed that inactivating mutations of the bax death agonist may contribute to the pathogenesis of human tumors. In particular, among B-cell malignancies, BAX mutations have been detected at a certain frequency in Burkitt lymphomas. This study is aimed at defining the status of the BAX gene throughout the clinicopathologic spectrum of AIDS-NHL (n = 54), including AIDS-related Burkitt lymphoma (n = 14), AIDS-related Burkitt-like lymphoma (n = 8), AIDS-related diffuse large cell lymphoma (n = 15), AIDS-related primary central nervous system lymphoma (n = 6), and AIDS-related primary effusion lymphoma (n = 11). All 6 BAX exons and flanking sequences were subjected to mutational analysis by polymerase chain reaction-single strand conformation polymorphism followed by DNA direct sequencing of positive cases. Mutations of BAX among AIDS-NHL were restricted to a cell line of AIDS-related primary effusion lymphoma, which harbored a frameshift mutation causing the introduction of a proximal stop codon. All other AIDS-NHL displayed wild-type BAX alleles. In order to investigate whether BAX inactivation in AIDS-NHL may occur through mechanisms other than gene mutation, bax protein expression was investigated by Western blot analysis or immunohistochemistry in selected cases. All AIDS-NHL analyzed expressed normal bax proteins. Overall, this study indicates that deregulation of apoptotic control in AIDS-NHL is not caused by BAX alterations. Genes Chromosomes Cancer 27:177-182, 2000

CHARACTERIZATION OF EPSTEIN-BARR VIRUS GENOTYPE IN AIDS-RELATED NON-HODGKIN’S LYMPHOMA

In the present study sequence variations at the C terminus of the Epstein-Barr virus (EBV) nuclear antigen 1 (EBNA-1), EBV-encoded latent membrane protein 1 (LMP-1), and EBNA-2 and EBNA-3C genes were investigated in 64 cases of EBV-positive AIDS-related diffuse large cell lymphoma (AIDS-DLCL), both systemic (12) and localized primarily to the central nervous system (52), and in 12 cases of EBV-positive AIDS-related Burkitt's lymphoma (AIDS-BL). Sequence analysis of the EBNA-1 C-terminal region led to the distinction of two major unrelated EBV strains, termed strain P (prototype) and strain V (variant), and their related subtypes, namely P-ala, P-thr, V-leu, V-val, and V-pro. Analysis of the LMP-1 gene was performed to assess the frequency of the C-terminus deletion variant, whereas analysis of EBNA-2 and EBNA-3C genes led to the identification of the distribution of the EBV type 1 and type 2 strains. The frequency of EBNA-1 subtypes was assessed in 49 cases of AIDS-NHL, including 37 cases of AIDS-DLCL and 12 cases of AIDS-BL. The P strain was detected in 45 of 49 cases (91.8%) whereas the V strain was found in 4 of 49 samples (8.1%). A significant difference in the distribution of the P and V strains was found between AIDS-DLCL and AIDS-BL (p < 0.01), because of the exclusive infection by the P strain of the AIDS-DLCL samples analyzed. The frequency of LMP-1 deletion variants and of EBV type 1 and type 2 strains in AIDS-DLCL overlapped with that of the general population, and no correlation was found with the evaluated clinicoepidemiological data of patients, that is, disease site, tumor histology, CD4(+) cell counts, and HIV transmission route. In conclusion, we found that the distribution of the EBV genotype in all of the AIDS-NHL samples analyzed is similar to the viral representation found in control individuals of both immunocompetent and immunocompromised populations

Molecular characterization of HHV-8 positive primary effusion lymphoma reveals pathogenetic and histogenetic features of the disease

BACKGROUND: Primary effusion lymphoma (PEL) associates with HHV-8 infection, preferentially develops in immunodeficient patients and grows in the serous body cavities. PEL derives from post-germinal center, pre-terminally differentiated B-cells. The pathogenesis of PEL is unclear and the sole identified genetic lesions are human herpesvirus type-8 (HHV-8) infection in all cases and EBV infection in 70% of cases. Epstein-Barr virus (EBV) infection in PEL displays a latency I phenotype. OBJECTIVES: To clarify the pathogenesis and histogenesis of PEL by investigating (1) the lymphoma karyotype; (2) the expression status of the Met tyrosine kinase receptor and of its ligand hepatocyte growth factor (HGF); (3) the molecular profile of EBV, with particular focus on mutations of EBNA-1 genes, which are thought to affect viral tumorigenicity in EBV-infected neoplasms displaying the latency I phenotype. STUDY DESIGN: Twenty-four PEL (nine cell lines and 15 primary specimens) formed the basis of the study. Karyotypes were investigated by conventional cytogenetics and fluorescent in situ hybridization (FISH) in selected cases. The expression status of Met and HGF was defined by multiple techniques, including RT-PCR, FACS analysis, immunocytochemistry, Western blot studies and ELISA. The molecular profile of EBNA-1 genes of EBV were investigated by DNA direct sequencing. RESULTS: Trisomy 7, trisomy 12 and breaks at 1q21-q25 are recurrently associated with PEL. PEL consistently co-express Met and HGF both at the mRNA and protein level. Among aggressive B-cell lymphomas, Met/HGF co-expression appears to be relatively specific for PEL. The EBNA-1 gene of EBV displays a high degree of genetic heterogeneity in PEL, with no preferential association with one specific variant. CONCLUSIONS: PEL associates with recurrent chromosomal alterations, suggesting that viral infection is not sufficient for tumor development and that lesions of cellular genes may be required. The expression of Met/HGF by PEL cells may bear implications for the lymphoma proliferation and growth pattern, since Met/HGF interactions influence cell mitogenesis and motogenesis. EBV infection in PEL displays a latency I phenotype and fails to associate with specific EBNA-1 variants, suggesting that the role of EBV in PEL is not mediated by the major transforming pathways currently known in EBV positive lymphomas