Our data imply that EBV infection would upregulate expression of bcl-2 protein to protect cells from c-myc-induced apoptosis, and to allow c-myc to exert its oncogenic functions (Vaux et al.1988; Brito-Babapulle et al.1991; Bissonnette et al.1992; Fanidi et al.1992; Karsan et al.1993; Mohammad et al.1993; Oltvai et al.1993; Marin et al.1995).
The purpose of the present study was to investigate the possibility of similar correlation between bcl-2 expression and EBV infection in vivo in a cohort of patients with aggressive NHL, who were uniformly evaluated and treated with effective chemotherapy.
Although molecular events in the neoplastic transformation of B-cells are not well understood, Epstein-Barr virus infection and bcl-2 protein overexpression have been postulated to have etiologic roles in some lymphomas.
We conclude that in RA patients with MTX-BLPD, EBV infection is associated with a lower incidence of CIMP, apoptosis-related gene hypermethylation, and BCL2 expression, which can induce tumor regression by MTX withdrawal and lead to better prognoses.
To evaluate the expression of c-myc and bcl-2 oncogene products in Reed-Sternberg cells in Hodgkin's disease, especially in relation to Epstein-Barr virus infection and expression of EBV encoded latent membrane protein (LMP).
These included genes postulated to be involved in magnesium transport (NIPAL1), EBV cell entry (ITGB6), modulation of EBV infection (BCL2L12, NEDD4L), telomere biology (CLPTM1L, BRD2, HNRNPU), modulation of cAMP signaling (RAPGEF3), DNA repair (PRKDC, MLH1), and Notch signaling (NOTCH1, DLL3).
AIDS-DLCL is characterized by EBV infection in the large majority of cases and by the mutually exclusive presence of bcl-6 rearrangements and c-myc translocations in 40% of the cases.
This study aimed at investigating the expression of the BCL-6 protein in acquired immune deficiency syndrome (AIDS)-related non-Hodgkin's lymphomas (AIDS-NHLs) and at comparing the expression pattern with the presence of Epstein-Barr virus (EBV) infection of the tumor clone.
BCL-6 rearrangements were detected both in the presence and in the absence of EBV infection of the tumor clone, but in no case were associated with activation of c-MYC or mutations of p53.
Fifty-two monoclonal PTLD were investigated for: 1). somatic hypermutation of IgV genes by direct sequencing of IgV rearrangements; 2). expression of BCL6, MUM1 and CD138 proteins by immunohistochemistry; 3). aberrant hypermethylation of DAP-kinase gene by methylation-specific polymerase chain reaction (PCR); 4). genotypic characterization of Epstein Barr virus (EBV) in EBV infected PTLD by PCR analysis of the prevalence of deletions in the carboxyterminal portion of the LMP1 gene and for the definition of type-1/type-2 EBV infection.
In SNU719 cells, one of EBVaGCs, genipin caused significant cytotoxicity (70 μM), induced methylation on EBV C promoter and tumor suppressor gene BCL7A, arrested cell-cycle progress (S phases), upregulated EBV latent/lytic genes in a dose-dependent manner, stimulated EBV progeny production, activated EBV F promoter for EBV lytic activation, and suppressed EBV infection.
To find out whether B cell receptor-crippled GC B cells acquire features of HL and/or PTLD cells upon EBV-infection and to reveal the impact of EBV on expression of B cell differentiation markers, we compared lymphoblastoid cell lines (LCLs) from GC B cells (including BCR-crippled GC-LCLs) to monoclonal LCLs from naïve B cells (N-LCLs).
Biochemical analysis of the underlying signaling pathways revealed that EBV infection causes constitutive tyrosine phosphorylation of one of the two SLP-65 isoforms and complex formation between SLP-65 and the protooncoprotein CrkL (CT10 regulator of kinase like).
These results suggest that EBV infection of NPC cells can activate the TLR9/NF-κB signaling pathway, promote the release of inflammatory cytokines and consequently enhance the inflammatory response, while SPLUNC1 can weaken the inflammatory response induced by EBV infection in NPC cells through the regulation of the TLR9/NF-κB signaling pathway and control of the tumor inflammatory microenvironment.
The first was characterized by hypermethylation of BRCA1 and younger age (<45 years old), and the second by hypermethylation of p14 and p16 genes, male predominance and Epstein-Barr virus infection.
These included genes postulated to be involved in magnesium transport (NIPAL1), EBV cell entry (ITGB6), modulation of EBV infection (BCL2L12, NEDD4L), telomere biology (CLPTM1L, BRD2, HNRNPU), modulation of cAMP signaling (RAPGEF3), DNA repair (PRKDC, MLH1), and Notch signaling (NOTCH1, DLL3).
In the present study, we proved that six forms of BARTs were present in EBV-positive cell lines and various tissue specimens with different EBV infection patterns.
Specifically, in nasopharyngeal carcinoma (NPC) tissues and the EBV-positive cell line C666-1, the miR-BART family accounted for more than 10% of all detected miRNAs, suggesting that these miRNAs have important roles in maintaining latent EBV infections and in driving NPC tumorigenesis.