Entry of Epstein-Barr virus (EBV) into B cells is initiated by attachment of glycoprotein gp350 to the complement receptor type 2 (CR2).A complex of three glycoproteins, gH, gL, and gp42, is subsequently required for penetration. Gp42 binds to HLA class II, which functions as an entry mediator or coreceptor and, by analogy with other herpesviruses, gH is then thought to be involved virus-cell fusion. However, entry of virus into epithelial cells is thought to be different. It can be initiated by attachment by an unknown glycoprotein in the absence of CR2. There is no interaction between gp42 and HLA class II and instead a distinct complex of only the two glycoproteins gH and gL interacts with a novel entry mediator. Again, by analogy with other viruses gH is thought to be critical to fusion. To investigate further the different roles of gH in infection of the two cell types and to examine its influence on the assembly of the gH-gL-gp42 complex, we constructed two viruses, one in which the gH open reading frame was interrupted by a cassette expressing a neomycin resistance gene and the gene for green fluorescent protein and one as a control in which the neighboring nonessential thymidine kinase gene was interrupted with the same cassette. Virus lacking gH exited from cells normally, although loss of gH resulted in rapid turnover of gL and gp42 as well. The virus bound normally to B lymphocytes but could not infect them unless cells and bound virus were treated with polyethylene glycol to induce fusion. In contrast, virus that lacked the gH complex was impaired in attachment to epithelial cells and the effects of monoclonal antibodies to gH implied that this resulted from loss of gH rather than other members of the complex. These results suggest a role for gH in both attachment and penetration into epithelial cells.The Epstein-Barr virus (EBV) gH-gL complex consists of three glycoproteins, gp85, the gH homolog which is the product of the BXLF2 open reading frame (ORF) (12, 26); gp25, the gL homolog which is the product of the BKRF2 ORF (38); and gp42, which is the product of the BZLF2 ORF (17). The complex behaves in many respects like its counterparts in other herpesviruses. Glycoprotein gH is dependent on gL for authentic processing and transport (38), and the complex as a whole has been implicated as important to the ability of virus to fuse with the cell membrane and penetrate into the cytoplasm (11,22). The precise roles of the individual members of the complex are, however, still being elucidated and appear to depend in part on the cell type that the virus is infecting.Infection of the B lymphocyte is dependent on an interaction between gp42 and HLA class II (32) which functions as an entry mediator for this cell type (16). A monoclonal antibody (MAb) to gp42 that blocks binding to HLA class II blocks virus-cell fusion (22), B cells that lack class II cannot be superinfected unless class II expression is restored (16), and a virus that lacks gp42 is unable to infect B cells unless a soluble form of gp42 that...
Glycoprotein gp85, the product of the BXLF2 open reading frame (ORF), is the gH homolog of Epstein-Barr virus (EBV) and has been implicated in penetration of virus into B cells. Like its counterparts in other herpesviruses, it associates with a gL homolog, gp25, which is the product of the BKRF2 ORF. Unlike the gH homologs of other herpesviruses, however, gp85 also complexes with two additional glycoproteins of 42 and 38 kDa. Glycoproteins gp42 and gp38 were determined to be alternatively processed forms of the BZLF2 gene product. Coexpression of EBV gH and gL facilitated transport of gH to the cell surface and resulted in formation of a stable complex of gH and gL. It also restored expression of an epitope recognized by monoclonal antibody E1D1, which immunoprecipitates the native gH complex but not recombinant gH expressed in isolation. Coexpression of gH, gL, and the BZLF2 ORF restored expression of an epitope recognized by a second monoclonal antibody, F-2-1, which immunoprecipitates the native gH-gL-gp42/38 complex but not the complex of recombinant gH and gL alone. The epitope recognized by antibody F-2-1 was mapped to the BZLF2 gene product itself. Antibody F-2-1 inhibited the ability of EBV to infect B lymphocytes but had no effect on the ability of the virus to infect the epithelial cell line SVK-CR2. In contrast, antibody E1D1 had no effect on infection of the B-cell line but inhibited infection of the epithelial cell line. These results indicate that penetration of the two cell types by EBV involves differential use of the gH-gL-gp42/38 complex and suggest the hypothesis that the BZLF2 gene product has evolved as a unique adaptation to infection of B lymphocytes by EBV.
Infection of B lymphocytes by Epstein-Barr virus (EBV) requires attachment of virus via binding of viral glycoprotein gp350 to CD21 on the cell surface. Penetration of the cell membrane additionally involves a complex of three glycoproteins, gH, gL, and gp42. Glycoprotein gp42 binds to HLA-DR. Interference with this interaction with a soluble form of gp42, with a monoclonal antibody (MAb) to gp42, or with a MAb to HLA-DR inhibited virus infection. It was not possible to superinfect cells that failed to express HLA-DR unless expression was restored by transfection or creation of hybrid cell lines with complementing deficiencies in expression of HLA class II. HLA class II molecules thus serve as cofactors for infection of human B cells. MATERIALS AND METHODS Cells. Raji (45), Akata (54), P3HR1-Cl13 (24), BLS-1 (50), SJO (4), .174 (7), BLS-1ϫSJO, BLS-1ϫ.174, .174.DR4, and SJO.DR4 (31) cells were grown in
Epstein-Barr virus (EBV) is a lymphotropic herpesvirus. However, access to B lymphocytes during primary infection may be facilitated by replication in mucosal epithelial cells. Attachment and penetration of EBV into these two cell types are fundamentally different. Both the distribution of receptors and the cellular origin of the virus impact the efficiency of infection. Epithelial cells potentially offer a wide range of receptors with which virus can interact. We report here on analyses of epithelial cells expressing different combinations of receptors. We find that the stoichiometry of the virus glycoprotein complex that includes gHgL and gp42 affects the use of gHgL not just for entry into epithelial cells but also for attachment. Penetration can be mediated efficiently with either a coreceptor for gp42 or gHgL, but the use of gHgL for attachment as well as penetration greatly compromises its ability to mediate entry.Epstein-Barr virus (EBV) is predominantly a lymphotropic herpesvirus. It is the etiologic agent of most cases of infectious mononucleosis and has been implicated in development of immunoblastic lymphoma, endemic Burkitt's lymphoma, and certain types of Hodgkin's disease. However, the virus also has tropism for epithelial cells. It causes oral hairy leukoplakia, a wart-like lesion of the oral cavity, and is associated with development of nasopharyngeal and gastric carcinomas (28). Initiation of infection of these two key targets, B lymphocytes and epithelial cells, is substantially different. It probably involves different routes (18) and certainly involves different envelope glycoproteins and cell receptors.B-cell infection is initiated by attachment of glycoprotein gp350/220 to the complement receptor type 2 (CR2) (6,21,22,34). Entry requires fusion of virus with the B-cell membrane, which is mediated by glycoprotein gB (8), and a noncovalently linked complex of three glycoproteins, gH, gL, and gp42 (9,20,37). Glycoprotein gL serves as a chaperone for gH (40), and a recombinant virus with gH deleted also lacks gL (20). Thus, with few exceptions, the functions of gH and gL cannot be mapped to either one of the two components. However, the third protein, gp42, plays no known role in gHgL maturation and is unique among human herpesviruses. It interacts with HLA class II (32), which functions as an essential coreceptor for B-cell infection (7,14). A monoclonal antibody (MAb) to gp42 that blocks the interaction with HLA class II inhibits virus cell fusion (15,19), and a MAb to HLA class II that blocks gp42 binding neutralizes virus infection. In further support of a critical role for gp42 in B-cell infection, a virus that lacks gp42 fails to infect B cells unless cells and bound virus are fused with polyethylene glycol (37) or a soluble form of gp42 which lacks a transmembrane domain but retains the ability to bind to gH and gL is added in trans (38).In contrast, not only is gp42 completely dispensable for entry into epithelial cells that do not constitutively express HLA class II, its presence is al...
Epstein-Barr virus (EBV) is a persistent, orally transmitted herpesvirus that replicates in B cells
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