Identification and characterization of the Epstein-Barr virus receptor on human B lymphocytes and its relationship to the C3d complement receptor (CR2).

In pursuing studies on the early events in the infection of human B cells by Epstein-Barr virus (EBV), we examined the host cell attachment phase with a panel of B-cell-specific monoclonal antibodies. One of the monoclonal antibodies, OKB7, directly blocked the attachment of purified EBV to B lymphocytes in the absence of a second anti-immunoglobulin antibody and thereby prevented EBV infection of tonsil and peripheral blood B cells. Although earlier studies have shown a close association of the EBV and complement receptor (CR2), an anti-CR2 monoclonal antibody, anti-B2, did not directly block the binding of EBV to B cells. A comparison of the structures recognized by these monoclonal antibodies on various cell types and their functional and physiochemical properties was undertaken. Flow cytometric analysis revealed that the molecules detected by OKB7 and anti-B2 were coexpressed to the same extent on B cells but were not expressed on T-cell lines. OKB7 and anti-B2 both immunoprecipitated a 145,000-molecular-weight membrane protein with an isoelectric point of 8.2 from membrane extracts of Raji lymphoblastoid cells. OKB7 and, to a lesser extent, anti-B2 directly blocked the attachment of C3d,g-coated fluorescent microspheres and sheep erythrocytes bearing C3d to B cells, indicating that these antibodies also react with CR2. These studies indicate that the EBV-CR2 receptor is a single membrane glycoprotein which possesses multiple antigenic and functional epitopes.     

Biochemical and antigenic analysis of the Epstein Barr virus/C3d receptor (CR2)

Four monoclonal antibodies (OKB7, HB-5, AB-1, and anti-B2) that recognize a 145-kDa B cell-specific membrane structure have markedly different abilities to 1) inhibit C3d and EBV binding to B cells, 2) immunoprecipitate a 145-kDa B cell protein, and 3) stimulate B cell proliferation and differentiation into Ig-secreting cells. This study was initiated to determine whether these four monoclonal antibodies (MoAb) react with the same protein; a related goal was to determine whether the structure(s) recognized by these antibodies constitutes an antigenically related family of structurally distinct molecules. In the studies presented here, the four MoAb were found to fully immunoprecipitate the purified 145-kDa B cell molecule isolated by immunoaffinity chromatography on either OKB7, HB-5, or AB-1 columns, findings that show conclusively that the antibodies all react with the same B cell protein. The variable ability to immunoprecipitate this B cell membrane protein was found to result from differences in exposure or accessibility of the relevant antigenic epitopes in the detergent extract. The 145-kDa molecule immunoprecipitated with the four MoAb was equivalently sensitive to endoglycosidase F and yielded the same banding pattern after digestion with endoglycosidase F and after partial digestion with either S. aureus V8 protease or with trypsin. Within the limits of the sensitivity of these techniques, therefore, there is no evidence for carbohydrate or protein differences in the EBV/C3d receptor (CR2) molecule recognized by the four MoAb. Additional studies showed that the four MoAb react with distinct and nonoverlapping antigenic epitopes on the 145-kDa molecule. The variable abilities of the four MoAb to inhibit CR2 function and EBV binding and to trigger B cell activation, together with the other findings noted above, indicates that the 145-kDa EBV/C3d receptor possesses discretely localized functional domains.     

Identification of gp350 as the viral glycoprotein mediating attachment of Epstein-Barr virus (EBV) to the EBV/C3d receptor of B cells: sequence homology of gp350 and C3 complement fragment C3d.

The major Epstein-Barr virus (EBV) envelope glycoprotein, gp350, was purified from the B95-8 cell line and analyzed for its ability to mediate virus attachment to the isolated EBV/C3d receptor (CR2) of human B lymphocytes. Purified gp350 and EBV, but not cytomegalovirus, exhibited dose-dependent binding to purified CR2 in dot blot immunoassays. Binding was inhibited by certain monoclonal antibodies to CR2 and to gp350. Liposomes bearing incorporated gp350 bound to CR2-positive B-cell lines but not to CR2-negative lines. Liposome binding was also inhibited by the OKB7 anti-CR2 monoclonal antibody. A computer-generated comparison of the deduced gp350 amino acid sequence with that of the human C3d complement fragment revealed two regions of significant primary sequence homology, a finding which suggests that a common region on these two unrelated proteins may be involved in CR2 binding.     

Analysis of epitope expression and the functional repertoire of recombinant complement receptor 2 (CR2/CD21) in mouse and human cells

We transfected human complement receptor 2 (CR2/CD21) cDNA containing eukaryotic expression constructs into CR2-negative mouse L cells and human K562 erythroleukemia cells. We subsequently selected stably transformed cells that expressed human CR2, as assessed by flow microfluorimetry analysis and immunoprecipitation of 125I-labeled surface membranes using the monoclonal anti-CR2 antibody, HB5. Utilizing flow microfluorimetry analysis, epitopes recognized by anti-CR2 mAb HB5, OKB7, B2, and four other anti-CR2 antibodies were detected on CR2 expressing transfectants but not parental cells. In addition, CR2 expressing transfected cells efficiently formed rosettes with sheep erythrocyte intermediates bearing human C3bi and C3d, but not C4b or C3b, consistent with the known ligand specificity of CR2. CR2 containing transfectants were also demonstrated to specifically bind EBV. Infection with EBV of CR2 expressing L cells and K562 cells resulted in mean expression of Epstein-Barr nuclear Ag (EBNA) at 48 h in 0.35% of CR2 expressing L cells and 3.7% of CR2 expressing K562 cells. Parental L cells and K562 cells did not express EBNA after EBV infection. These results indicate that CR2 alone is sufficient to transfer both C and EBV receptor functions to heterologous cells. In addition, expression of EBNA was found to be significantly higher in human K562 than mouse L cells, both expressing the same recombinant receptor. These results suggest that mechanisms other than CR2 binding lead to inefficient EBV infection and/or EBNA synthesis in mouse fibroblasts.     

Binding of C3 and C3dg to the CR2 complement receptor induces growth of an Epstein-Barr virus-positive human B cell line

The effect of ligand interactions with the C3d/C3dg complement receptor (CR2) on proliferation of human B lymphoblastoid cells was investigated by using cell cultures performed at low density (1 to 1.5 x 10(3) cells/ml) in a serum-free defined medium to which only transferrin had been added. This medium does not allow proliferation of Raji cells which die within 48 hr with formation of polykaryons. Addition of purified human C3 to the cultures resulted in a dose-dependent proliferation of the cells. A steady growth of Raji cells with a doubling time of 36 hr was observed in cultures containing 10 micrograms/ml of C3. A growth rate similar to that observed in the presence of native C3 was found in the presence of equimolar concentrations of purified C3dg but not of C3c. F(ab')2 anti-C3d but not F(ab')2 anti-C3c antibodies inhibited the mitogenic effect of C3. Preincubation of Raji cells with monoclonal antibody OKB7 which directly inhibits the binding of C3dg to CR2, totally suppressed C3-induced growth of the cells. C3 did not enhance growth of the T lymphoma-derived cell line JM and monocytic cell line U937 which do not express CR2. These results provide direct evidence that the interaction between CR2 and C3 fragments stimulates proliferation of human cells of the B lineage. Because CR2 also acts as a receptor for Epstein-Barr virus on B cells, our results may pertain to the B cell mitogenic properties of the virus.     

Binding of monoclonal antibody to the Epstein Barr virus (EBV)/CR2 receptor induces activation and differentiation of human B lymphocytes

A panel of B cell-specific monoclonal antibodies that identify the CR2/EBV receptor were examined for their ability to mimic the T-independent mitogenic agent, EBV, and thus activate human peripheral blood B lymphocytes. Two of four different anti-CR2/EBV monoclonal antibodies, OKB7 and AB-1, produced a 50-fold to 200-fold dose-dependent stimulation of DNA synthesis of peripheral blood mononuclear cells. One of the other monoclonal antibodies, anti-B2, had slight activity, and the other, HB-5, was completely inactive. One of the mitogenic antibodies, OKB7, which directly inhibits binding and infection of B cells by EBV in the absence of a second anti-immunoglobulin antibody, was examined in further detail. Both the intact antibody in soluble form and its pepsin-derived F(ab')2 fragment stimulated DNA synthesis of unseparated B and T lymphocytes. Peak stimulation of DNA synthesis in peripheral blood mononuclear cells occurred between 4 to 6 days. B cells were responsible for incorporation of [3H]thymidine. However, T cells were required for activation of peripheral blood mononuclear cells by OKB7. OKB7, as well as the other mitogenic monoclonal anti-EBV/CR2 receptor antibody, also induced B cells to differentiate after 6 to 10 days of culture as indicated by polyclonal Ig secretion. IgM was the predominate immunoglobulin secreted. These studies thus indicate that certain epitopes on the EBV/CR2 receptor trigger B cells to divide and differentiate. This pathway of B cell activation, in contrast to that produced by EBV, is T cell dependent.     

Analysis of Epstein-Barr virus-binding sites on complement receptor 2 (CR2/CD21) using human-mouse chimeras and peptides. At least two distinct sites are necessary for ligand-receptor interaction.

The predicted amino acid sequence of human complement receptor 2 (CR2, CD21, C3d,g/Epstein-Barr virus receptor) and its genetic murine homologue are approximately 70% identical. The sequence of each consists of a linear array of 60-70 amino acid repeats designated short consensus repeats (SCRs). Although they share significant sequence identity, a major difference in the activities of these two proteins has been believed to be the ability of human, but not mouse, CR2 to mediate Epstein-Barr virus (EBV) infection of B lymphocytes. In order to formally address this question and to directly compare the activities of the CR2 protein of each species, we have expressed recombinant mouse CR2 (rMCR2) in a human K562 erythroleukemia cell line background. We have found that rMCR2 reacts with two previously described rat anti-MCR2 monoclonal antibodies (mAbs), 7G6 and 7E9, but not mAb 8C12, which recognizes only mouse complement receptor 1. rMCR2 rosettes with erythrocytes bearing mouse and human C3d,g and binds glutaraldehyde cross-linked human C3d,g with a similar Kd as human CR2 (HCR2). rMCR2 does not bind EBV. By using this observation and constructing chimeras bearing portions of MCR2 on a HCR2 background, we have been able to define unique sequences in HCR2 SCRs 1 and 2 important in the interaction with both mAb OKB7, which blocks EBV binding and infection, and with EBV. In addition, by using blocking peptides derived from HCR2 sequence, we have identified a second distinct region in SCR2 important in EBV binding. Therefore, within the first two SCRs of HCR2 are multiple distinct sites of interaction with EBV and with mAb OKB7.     

C3 synthetic peptides support growth of human CR2-positive lymphoblastoid B cells

The nature of CR type 2 (CR2)-ligand interactions which leads to the activation of human B cells was analyzed by using synthetic peptides and CR2-positive cell lines. The third component of C (C3) supported the growth of human lymphoblastoid B cells in serum-free medium containing human transferrin. This effect was inhibited by an antibody to C3d (mAb 130) which specifically inhibits C3d binding to CR2, but not by other anti-C3 mAb. Synthetic peptides corresponding to the CR2-binding site on C3d, P28 (residues 1187-1214) or multivalent P13 [1202-1214)4-template), supported the proliferative response of CR2-positive human lymphoblastoid lines in a similar way as C3 and this response could be inhibited by the anti-CR2 mAb OKB7. The proliferative response to C3 or peptides was dose dependent and a 60-fold higher concentration of P28 peptide was required to induce the same level of proliferation as C3. This stimulation of growth was observed only on CR2 expressing cell lines Raji and Daudi, and not on the CR2-negative Burkitt lymphoma cell line Rael and the monocytic cell line U937. In contrast to the stimulatory effect of P28 and P13-template, monomeric P14 (1201-1214) was not able to support the growth of these cell lines. This peptide, however, inhibited the proliferative response of the CR2-positive lines to C3, P28, and multivalent-P13, thus indicating that cross-linking of the CR2 receptor is necessary for B cell proliferation. Another peptide, E12 (from glycoprotein (GP)350, the major EBV outer membrane GP) which shows a high degree of similarity with P14, also inhibited the proliferative response of Raji cells, suggesting that this segment on GP350 is involved in the interaction of EBV with CR2. The possibility of using the above peptides as well as other peptides with "tailor-made" structure in studying the multifunctional role of C3 is discussed.     

CR2 ligands modulate human B cell activation

A considerable body of evidence from this and other laboratories indicates that complement receptor type 2 (CR2) modulates B cell activation and growth. In the present studies we have examined the effects of three different types of CR2 ligands, i.e., monomeric, aggregated, and latex-bound C3dg; mAb to different CR2 epitopes; and UV-inactivated, non-transforming EBV (EBVUV) for their actions on highly purified, high density resting tonsil B cells. Although none of these ligands induced B cells to enter the cell cycle or synergized with either anti-mu or low m.w. B cell growth factor in triggering B cell mitogenesis, aggregated C3dg, latex-bound C3dg, the OKB7 anti-CR2 mAb, and EBVUV-enhanced thymidine incorporation by phorbol ester-activated tonsil B cells. Such enhancement was not T cell or monocyte dependent. The major action of the CR2 ligands thus seems to be to enhance the transition of B cells activated by certain stimuli from the G1 to the S phase of the cell cycle. In contrast to the action of aggregated and latex-bound C3dg, monomeric C3dg was inhibitory for phorbol ester and aggregated C3dg-induced B cell activation. The HB-5 anti-CR2 mAb, which reacts with a different epitope on CR2 from that of OKB7, did not synergize with PMA in B cell activation. These data provide additional evidence for a role for the CR2 in the control of B cell growth and provide a useful model for studying the CR2-mediated signals that affect the growth of B cells.     

Model for studying virus attachment: identification and quantitation of Epstein-Barr virus-binding cells by using biotinylated virus in flow cytometry.

Epstein-Barr virus (EBV) was purified and biotinylated without significant loss of its cell-transforming activity. The use of biotinylated virus in conjunction with antibodies specific for selected cell surface molecules and flow cytometric analysis allowed for the positive identification of the virus-binding lymphocytes among a heterogeneous mononuclear cell population. Biotinylated EBV efficiently bound to all B lymphocytes, including those bearing surface mu, delta, gamma, and alpha immunoglobulin heavy chains or the surface CD5 (Leu-1) marker, but not to T lymphocytes, natural killer cells, or monocytes. By using biotinylated EBV and specific monoclonal antibodies in competitive inhibition experiments, it was also found that the virus attaches to an epitope on the CR2 molecule (the receptor for C3d and EBV), which is close to or identical with the one recognized by OKB7 monoclonal antibody, and that cell surface structures other than CR2 cannot mediate attachment of EBV. Moreover, studies on the binding of the virus to induced B lymphocytes (cells in S through G2 phase), and this was associated with the disappearance of the surface CR2 molecule and the inability of the virus to attach to these cells. The approach described here should be useful in studying the attachment of other viruses, identifying the specific cell types involved, and analyzing the effect of the cell cycle on virus binding.     

Epstein Barr virus/complement C3d receptor is an interferon alpha receptor.

Interferon alpha contains a sequence motif similar to the complement receptor type two (CR2/CD21) binding site on complement fragment C3d. Antibodies against a peptide with the CR2 binding sequence on C3d react with a peptide carrying the IFN alpha CR2 binding motif (residues 92-99) and with recombinant IFN alpha. The IFN alpha-derived peptide, as well as recombinant IFN alpha, inhibits C3bi/C3d interaction with CR2 on the Burkitt lymphoma Raji. The direct interaction of IFN alpha and CR2 is inhibited by polyclonal anti-IFN alpha, anti-CR2 and anti-C3d peptide antibodies as well as by C3bi/C3d, EBV coat protein gp350/220 and IFN but not by IFN gamma. [125I]IFN alpha binding to Raji cells is inhibited by polyclonal anti-IFN alpha and anti-CR2 antibodies, by peptides with the CR2 binding motif and partially by C3bi/C3d. Monoclonal anti-CR2 antibody HB5, but not OKB-7, blocks IFN alpha binding to Raji cells. CR2 or CR2-like molecules may therefore be the major IFN alpha receptors on B lymphocytes.     

Two strains of Epstein-Barr virus (B95-8 and a P3HR-1 subclone) that lack defective genomes induce early antigen and cause abortive infection of Raji cells.

The heterogeneity of Epstein-Barr virus (EBV) obtained from P3HR-1 cells has permitted derivation of a distinct subclone of P3HR-1 (L. Heston, M. Rabson, N. Brown, and G. Miller, Nature (London) 295:160-163, 1982). We have analyzed the biologic properties and genomic structure of this subclonal virus (clone 13) compared with those of parental P3HR-1 and B95-8 viruses. Synthesis of EBV compared with those of parental P3HR-1 and B95-8 viruses. Synthesis of EBV proteins in Raji cells superinfected with virus derived from P3HR-1, clone 13, and B95-8 was analyzed both by fluorography of radiolabeled proteins and by immunoblotting. Highly concentrated preparations of clone 13 and B95-8 virus induced most of the spectrum of EBV proteins in Raji cells with the exception of the 145,000-, 140,000-, and 110,000-molecular-weight proteins, which were either undetectable or reduced. Moreover, both clone 13 and B95-8 viruses also induced the same patterns of early antigen diffuse components as the parental P3HR-1 virus did. However, only P3HR-1 virus could induce EBV DNA synthesis in superinfected Raji cells, as determined both by buoyant density centrifugation and by in situ cytohybridization with biotinylated recombinant EBV DNA probes. Defective heterogeneous molecules present in P3HR-1 virus have been implicated in early antigen induction after superinfection of Raji cells. Therefore, Southern blots of clone 13, P3HR-1, and B95-8 viruses were hybridized to recombinant EBV fragments representing the sequences contained within the defective molecules in P3HR-1. The parental P3HR-1 contained the previously described defective molecules. No evidence for defective molecules was found in clone 13 or B95-8 viruses. These data indicate that concentrated preparations of both clone 13 and B95-8 viruses can induce abortive infection in Raji cells, but while the defective molecules are not needed for induction of early antigen diffuse components, they may be required for the induction of viral DNA synthesis.     

细胞间接触是EB病毒自发感染人类上皮细胞的有效途径

选用产EB病毒的绒猴淋巴细胞B95-8系和补体受体2型(complement receptor 2,CR2)与多聚免疫球蛋白受体(polymeric immunoglobulin receptor,plgR)表达阴性的人水生化上皮细胞Hacat系共培养,进行细胞接触感染实验。一周后去除B95-8细胞,仅留Hacat细胞,并以自行改进的方法鉴定前者是否得以彻底去除。在证实没有．B95-8残留后,PCR和原位杂交分别检验剩余Hacat细胞中EB病毒的感染结果。实验结果表明：改进的方法能够灵敏和简便地判断B95-8细胞的污染与否,并且与．B95-8细胞接触共培养的Hacat细胞能被EB病毒有效地感染,后者暗示了EB病毒对上皮细胞可能存在细胞融合和CR2或plgR介导之外新的感染途径。本研究在一定程度上简化了前人的细胞接触感染方法,也为建立天然的EB病毒自发有效地感染上皮细胞的模型奠定了基础。     

CR2 is a complement activator and the covalent binding site for C3 during alternative pathway activation by Raji cells

Antibody-independent activation of the alternative C pathway by human lymphoblastoid cell lines latently infected with EBV has been recognized for some time, although the mechanisms involved and the specific cell surface molecule(s) recognized by the C system have not been identified. The present studies, carried out with the purified proteins of the alternative pathway have addressed these questions. Activation of the purified proteins of the alternative pathway by Raji lymphoblastoid cells was found to be antibody independent, confirming earlier findings with serum. Surprisingly, activation was highly dependent on properdin. In other models properdin has been found to augment alternative pathway activation and to be required for lysis of virus infected cells. Molecules which activate the alternative pathway provide binding sites on which C3 breakdown by regulatory proteins is impeded; therefore intact C3b accumulates on the activator. Immunoprecipitation studies with either anti-CR2 or anti-C3 have identified CR2, the R for C3d,g and EBV, as a major covalent and noncovalent binding site for C3 deposition on Raji cells during alternative pathway activation. Covalently bound C3b was dissociated from CR2 by hydroxylamine, indicating attachment via an ester bond. C3b binding after activation was not reduced by an anti-CR2 mAb which blocks CR2 R function, indicating that it was probably not mediated by C3d,g R epitopes on CR2. Direct confirmation of the ability of CR2 to trigger the alternative pathway came from studies with purified CR2 which was found to activate the alternative C pathway in serum or in mixtures of the purified proteins of the pathway. This work provides conclusive evidence that CR2 is a C activator and functions in this capacity on Raji cells.     

The generation of active fragments of complement receptor type 2 by trypsin digestion

B lymphocytes and Raji cells express the complement receptor type 2 (CR2) of 145 kDa which recognises the C3d fragment of C3. When intact cells are treated with trypsin, CR2 is degraded. There is a parallel loss in C3d-mediated rosetting and in proteins which bind to C3d-Sepharose. Initially 97 and then 83 kDa fragments of CR2 are produced which retain C3d binding activity. These fragments are associated with the cell surface and mediate rosetting. Purified 125I-labelled CR2, solubilised in detergent, produces fragments of apparently identical size on treatment with trypsin. The 83 kDa fragment produced by trypsin treatment closely resembles the major C3d binding protein spontaneously released into Raji cell culture medium.     

C3d and Epstein-Barr Virus (CR2/CD21 Ligands) Stimulate Cells of an HTLV-I Line,MT-2

We studied the physiological role of complement receptor type II (CR2, C3d/EBV receptor) expressed on T cells using MT-2 cells. First, we confirmed CR2 expression on MT-2 cells by flow cytometry and found that the MW of CR2 molecules on these cells and Raji B cells were the same by SDS-PAGE analysis. When MT-2 lysates were incubated with anti-CR2 mAb HB5 and thereafter with ³²P-labeled ATP, 52- and 74-kDa proteins were phosphorylated, suggesting the activation of MT-2 cells through the complex of CR2 with these proteins. In this respect, we measured lymphotoxin production by MT-2 cells when incubated with C3d or EBV. The cytotoxicity of the MT-2 supernatant against L929 cells was elevated in a dose- and time-dependent manner. Next, we confirmed EBNA expression on EBV-infected MT-2 cells and attempted to establish an EBV-positive MT-2 clone by in vitro EBV infection. However, these clones disappeared during cloning. To clarify this mechanism, we examined the EBV genome in MT-2 cells. By Southern blot analysis, BamHI digestion of DNA extracts from MT-2 cells 3 days after EBV treatment gave a 3.0-kb signal which comigrated with the EBV BamHI-W probe. The 3.0-kb signal of genomic EBV-DNA was detected at 1, 2, 3, 5, and 7 days after EBV treatment, but could not be detected at 14 days. Thus, natural ligands of CR2 stimulate CR2-positive MT-2 cells through their functionally active CR2 molecules and in vitro EBV infection of MT-2 cells might be transient.     

Purification of the Epstein-Barr virus/C3d complement receptor of human B lymphocytes: antigenic and functional properties of the purified protein.

The Epstein-Barr virus/C3d receptor (CR2) of human B lymphocytes was purified to homogeneity from Raji cells by immunoaffinity chromatography. The average yield of the 145-kilodalton receptor was 400 pmol (50 micrograms) per 10(10) cells, representing an approximate 75% recovery. The isolated 145-kilodalton protein was antigenically and functionally intact as it reacted with several anti-CR2 monoclonal antibodies and bound purified Epstein-Barr virus and C3d,g. These findings with the purified molecule provide an unequivocal demonstration of the dual receptor functions of this protein.     

OKB7, a monoclonal antibody that reacts at or near the C3d binding site of human CR2

OKB7, an IgG2 mouse monoclonal antibody, binds to the C3d receptor (CR2) of human B lymphocytes in or near the active site of the receptor. OKB7 precipitates the same molecule as monoclonal antibodies B2 and HB-5 which have previously been reported to react with the C3d receptor at epitopes distant from the active site. The epitope recognized by OKB7 is distinct from those bound by B2 and HB-5 as shown in competitive binding experiments and is near the complement binding site since OKB7 blocks EAC3d rosetting at concentrations as low as 1 microgram/ml in the absence of cross-linking antibodies.     

Role of CR2 in the human adult and neonatal in vitro antibody response to type 4 pneumococcal polysaccharide.

A number of studies have indicated that the complement receptor type 2 (CR2), which is the receptor for C3d, a degradation fragment of the complement component C3, regulates B lymphocyte activation and growth. Early reports have described that C3 regulates T cell-dependent (TD) antibody responses. The involvement of CR2 in the antibody response to T cell-independent type 2(TI-2) antigens was investigated because neonatal B cells, which are unresponsive to TI-2 antigens both in vivo and in vitro, express a significantly decreased level of CR2 as compared to B cells of adult donors. We utilized type 4 pneumococcal polysaccharide (PS4) as a model TI-2 antigen. In order to study the relationship between CR2 and the response to PS4, B cells were costimulated with PS4 and monoclonal antibodies (MAb) to CR2. HB5 and OKB7 anti-CR2 monoclonal antibodies enhanced the in vitro response of adult B cells to PS4, as measured in a PS4-specific spot-forming cell assay. Neonatal B cells could only be induced to respond to PS4 using high concentrations of OKB7 anti-CR2 MAb. The 8-mercaptoguanosine (8MGuo), an agent that can overcome the in vitro unresponsiveness to PS4 of neonatal B cells, increased CR2 expression on adult and neonatal B cells. Furthermore, 8MGuo synergizes strongly with anti-CR2 antibodies in augmenting the anti-PS4 antibody response. Data presented in this report provide evidence of CR2 involvement in the antibody response to PS4 and that the neonatal B cell unresponsiveness to TI-2 antigens may be due to the decreased expression of CR2.     

Epstein Barr Virus (EBV) Fusion with Hepathoma Cell Line (Li7A): A Possibility to Use Ebv Virosohes for Drugs Delivery to Liver Cells

Abstract

EBV a causative agent of mononucleosis and several human cancers, infects cell via complement receptor type 2 (CR2). Expression of this receptor is restricted to B lymphocytes, some epithelial cells and immature thymocytes, expression of CR2 like proteins has been also found on T cells. In the present report we identified the presence on the membrane of Li7A cells of a novel EBV receptor distinct from CR2 capable to trigger fusion with EBV virions with a kinetics faster than that found with lymphoblastoid cells (Raji).