Molecular Basis for the Interaction of the Hepatitis B Virus Core Antigen with the Surface Immunoglobulin Receptor on Naive B Cells

The nucleocapsid of the hepatitis B virus (HBV) is composed of 180 to 240 copies of the HBV core (HBc) protein. HBc antigen (HBcAg) capsids are extremely immunogenic and can activate naive B cells by cross-linking their surface receptors. The molecular basis for the interaction between HBcAg and naive B cells is not known. The functionality of this activation was evidenced in that low concentrations of HBcAg, but not the nonparticulate homologue HBV envelope antigen (HBeAg), could prime naive B cells to produce anti-HBc in vitro with splenocytes from HBcAg- and HBeAg-specific T-cell receptor transgenic mice. The frequency of these HBcAg-binding B cells was estimated by both hybridoma techniques and flow cytometry (B7-2 induction and direct HBcAg binding) to be approximately 4 to 8% of the B cells in a naive spleen. Cloning and sequence analysis of the immunoglobulin heavy- and light-chain variable (VH and VL) domains of seven primary HBcAg-binding hybridomas revealed that six (86%) were related to the murine and human VH1 germ line gene families and one was related to the murine VH3 family. By using synthetic peptides spanning three VH1 sequences, one VH3 sequence, and one VLkappaV sequence, a linear motif in the framework region 1 (FR1)complementarity-determining region 1 (CDR1) junction of the VH1 sequence was identified that bound HBcAg. Interestingly, the HBcAg-binding motif was present in the VL domain of the HBcAg-binding VH3-encoded antibody. Finally, two monoclonal antibodies containing linear HBcAg-binding motifs blocked HBcAg presentation by purified naive B cells to purified HBcAg-primed CD4(+) T cells. Thus, the ability of HBcAg to bind and activate a high frequency of naive B cells seems to be mediated through a linear motif present in the FR1-CDR1 junction of the heavy or light chain of the B-cell surface receptor.     

In vivo inhibition of anti-hepatitis B virus core antigen (HBcAg) immunoglobulin G production by HBcAg-specific CD4(+) Th1-type T-cell clones in a hu-PBL-NOD/SCID mouse model.

Hepatitis B virus (HBV) core antigen (HBcAg)-specific CD4⁺ T-cell responses are believed to play an important role in the control of human HBV infection. In the present study, HBcAg-specific, HLA-DR13*-restricted CD4⁺ Th1-type T-cell clones were generated which secreted both gamma interferon and tumor necrosis factor alpha after in vitro antigen stimulation. These HBcAg-specific CD4⁺ Th1-type T cells were able to lyse HBc peptide-loaded Epstein-Barr virus-transformed lymphoblastoid target cells in vitro. To examine whether these HLA-DR13*-restricted human CD4⁺ Th1 T cells also display the same cytotoxic effects in vivo, we transferred peripheral blood leukocytes (PBL) derived from HBV-infected donors or an HBV-naïve donor sharing the DR13*, together with the HBcAg-specific CD4⁺ Th1-type T cells and HBcAg, directly into the spleen of optimally conditioned Nod/LtSz-Prkdc^scid/Prkdc^scid (NOD/SCID) mice. The production of both secondary anti-HBc-immunoglobulin G (anti-HBc-IgG) and primary HBcAg-binding IgM in hu-PBL-NOD/SCID mice was drastically inhibited by HBcAg-specific CD4⁺ Th1-type T cells. No inhibition was observed when CD4⁺ Th1 cells and donor PBL did not share an HLA-DR13. These results suggest that HBcAg-specific CD4⁺ Th1 T cells may be able to lyse HBcAg-binding, or -specific, B cells that have taken up and presented HBcAg in a class II-restricted manner. Thus, HBcAg-specific CD4⁺ Th1-type T cells can modulate the function and exert a regulatory role in deleting HBcAg-binding, or -specific, human B cells in vivo, which may be of importance in controlling the infection.

The hepatitis B virus (HBV) is a small, enveloped virus with a circular, partially double-stranded DNA genome. It is a major cause of infectious liver disease throughout the world. The majority of acutely infected adults recover from the disease, whereas 5 to 10% become persistently infected and develop chronic liver disease. In contrast to adult infection, neonatally transmitted HBV infection is rarely cleared, and the majority of those infants become chronically infected.Most studies suggest that HBV is not directly cytopathic and immune responses to HBV antigens are responsible for the viral clearance and disease pathogenesis. Antiviral CD8⁺ T cells are believed to play a major role in the control of HBV infection by virtue of their capacity to identify and kill virus-infected cells (8). Recent studies suggest that viral clearance requires additional cytotoxic T lymphocyte (CTL) functions besides their ability to kill infected cells and that noncytopathic antiviral mechanisms are considered very important in the control of disease (19, 20). It was recently shown that HBV core antigen (HBcAg)-binding B cells are common even in a naive host (5, 27). HBcAg-binding B cells, which take up HBcAg and present viral peptides through class II molecules, may represent up to 15% of the B-cell repertoire in a naive host (5, 27). This suggests that HBV has targeted HBcAg to B cells, although the importance of this targeting is still unknown.During acute self-limited HBV infection, a vigorous HBcAg-specific HLA class II-restricted CD4⁺ T-cell response is observed, while the HLA class II-restricted, HBV surface antigen (HBsAg)-specific response appears much less vigorous (14, 25). The HBcAg-specific fraction of peripheral blood T cells in acute self-limited hepatitis B selectively secrete Th1-type cytokines, suggesting that Th1-mediated effects may contribute not only to liver cell injury but probably also to recovery from disease and successful control of infection (35). It is becoming increasingly evident that the HBcAg-specific CD4⁺ T-cell response may play an important role in viral clearance by providing help for the growth and maturation of B cells and CD8⁺ T cells, by being directly cytotoxic for the infected targets or by modulating the viral replication via secretion of cytokines such as gamma interferon (IFN-γ) and tumor necrosis factor alpha (TNF-α) (29).HBsAg-specific HLA class II-restricted CD4⁺ cytotoxic T-cell clones have been isolated from the liver of chronic active hepatitis B patients and from the peripheral blood leukocytes (PBL) of HBsAg-vaccinated individuals (4, 7). However, the role of HLA class II-restricted HBsAg- and HBcAg-specific CD4⁺ cytotoxic T cells in the HBV infection, protection, and pathogenesis is not well-defined. There is no direct way to demonstrate in humans that the HLA class II-restricted CD4⁺ cytotoxic T cells, which have been described in several human viral infections (4, 16, 24, 43), have the same cytotoxic capacity in vivo as in vitro.In the present study, HBcAg-specific HLA class II-restricted CD4⁺ T-cell clones were generated from the PBL of a DR13-positive subject that had fully recovered from an acute self-limited HBV infection. These HBcAg-specific CD4⁺ Th1-type T cells partially expressed CD56 and were able to lyse the human target cells (Epstein-Barr virus [EBV]-transformed lymphoblastoid cell lines [LCLs]) in vitro. In vivo experiments in the hu-PBL-NOD/SCID mouse model revealed that HBcAg-specific CD4⁺ Th1 T cells drastically inhibited the production of HBcAg-specific antibodies, suggesting that these cells were able to specifically lyse the HBcAg-specific human B cells that had taken up and processed HBcAg. These CD4⁺ Th1-type cytotoxic T cells may exert a regulatory role on the HBcAg-specific antibody production by deleting HBcAg-specific (or -binding) B cells in vivo during natural HBV infection and thus contribute to the successful control of virus and recovery of HBV infection of DR13-positive patients.     

Mucosal immunogenicity of the hepatitis B core antigen

The hepatitis B virus (HBV) core antigen (HBcAg) is a potent immunogen in animal models and humans and has been used as a carrier for several antigens, however, the mucosal immunogenicity of HBcAg or chimeric HBcAg proteins has been poorly studied and only using the truncated variant of the HBcAg. In this study we explored the mucosal immunogenicity in mice of the recombinant complete nucleocapside of HBcAg. The antigen was administered by different mucosal and parenteral routes. The antibody response in sera was evaluated after each immunization and mucosal lavages were tested with the final extraction. To characterize the immune response, the serum IgG antibody response was tested during six months and also the ratio IgG2a to IgG1 was determined. The results obtained evidenced that the mucosal immunogenicity of HBcAg depended on the administration route, being the intranasal (i.n.) route the one that generated the higher IgG responses in sera, similar in intensity and duration to parenteral administrations. The IgA response in mucosal washes was superior for nasally immunized mice compared to the rest of mucosal and parenteral groups. The nasal route also induced the higher IgG2a to IgG1 ratio, evidencing a Th1-like Ab subclass pattern. In addition to the high Ab responses, preliminary results of the cellular response induced by nasal administration evidenced the induction of strong lymphoproliferative responses in spleen cells.     

Human memory B lymphocyte subsets fulfill distinct roles in the anti-polysaccharide and anti-protein immune response

There is controversy on the role of IgM memory and switched memory B lymphocytes in the Ab response to T cell-independent and T cell-dependent Ags. We transplanted SCID/SCID mice with human B lymphocyte subsets and immunized them with heat-inactivated Streptococcus pneumoniae or with a pneumococcal vaccine. Inactivated S. pneumoniae and soluble pneumococcal capsular polysaccharides elicited an IgM anti-polysaccharide and anti-protein Ab response from IgM memory B lymphocytes and an IgG anti-polysaccharide and anti-protein response from switched memory B lymphocytes. In addition to the IgM Ab response, IgM memory B cells elicited an IgG anti-polysaccharide and anti-protein Ab response after immunization with inactivated S. pneumoniae or soluble pneumococcal capsular polysaccharides. In conclusion, our findings provide evidence for a versatile role of IgM memory B cells in T-independent and T-dependent immune responses.     

Specificity of T lymphocyte cytotoxicity to autologous hepatocytes in chronic hepatitis B virus infection: evidence that T cells are directed against HBV core antigen expressed on hepatocytes

Peripheral blood T lymphocytes from 21 patients with chronic HBV infection were incubated with autologous hepatocytes in a microcytotoxicity assay. Cytotoxicity was significantly increased in 13 cases, and in 12 of these the cytotoxic effect of the T lymphocytes was inhibited by preincubating the liver cells with IgG containing antibodies to the hepatitis B core antigen (HBcAg). Normal human IgG and IgG containing antibodies to the hepatitis B surface antigen (HBsAG) were without effect. Control experiments using autologous fibroblasts as target cells showed low levels of T cell cytotoxicity and no blocking effect of anti-core antibody. All patients in whom it was possible to demonstrate HBcAg in liver tissue had significantly increased T cell cytotoxicity to autologous hepatocytes. These studies suggest that T cell cytotoxicity in patients with chronic HBV infection is directed against determinants resembling the hepatitis B core antigen on the plasma membrane of hepatocytes.     

hu-PBL-SCID小鼠体内人淋巴细胞状况及其对人肺癌移植瘤转移的影响

将人外周血淋巴细胞经腹腔移植于T、B细胞严重联合免疫缺陷的SCID小鼠后,成功地建立了hu - PBL- SCID小鼠模型。在移植后4 周,其小鼠血清中存在人免疫球蛋白,其脾淋巴细胞中,所检测的8 种免疫表型人淋巴细胞亚群均存在,表明人淋巴细胞在SCID小鼠体内出现了增殖或重建。但hu- PBL- SCID小鼠及未免疫重建的SCID小鼠体内人肺巨细胞癌PLA- 801DL的生长及转移情况未见明显差异,提示hu- PBL- SCID小鼠体内的人淋巴细胞不具有明显的抗肿瘤活性。     

Development of functional B cells in a line of SCID mice with transgenes coding for anti-double-stranded DNA antibody

Deletion or inactivation of anti-self (DNA) B cells has been reported in non-autoimmune mice bearing Ig transgenes that code for Abs with specificity for dsDNA or ssDNA. However, we report a case in which anti-dsDNA B cells appear to escape both deletion and inactivation. We show that B cells (B220+IgM+) can develop in non-autoimmune SCID mice bearing two site-directed transgenes, 3H9(56R) and Vkappa8, that together code for an anti-dsDNA Ab. The B cells appear inactive, because the mice (56RVkappa8 SCID mice) generally lack serum Ig. However, 56RVkappa8 SCID mice are able to produce IgG Ab with specificity for dsDNA when they become "leaky" for T cells or are reconstituted with exogenous T cells from B cell-deficient JH-/- donors. Thus, anti-dsDNA B cells that escape deletion in 56RVkappa8 SCID mice appear fully functional and can differentiate, class switch, and give rise to IgG-producing cells in the presence of T cells and self-Ag.     

Human peripheral blood lymphocyte severe combined immunodeficiency (hu-PBL SCID) models of toxoplasmosis

Toxoplasmosis is a potentially fatal opportunistic infection of immunocompromised hosts. Improved animal models of toxoplasmosis are needed to more nearly approximate conditions that occur in immunocompromised humans. The development of models of toxoplasmosis using human peripheral blood lymphocytes (hu-PBL) transplanted into severe combined immunodeficiency (SCID) mice is described here. Transplantation of hu-PBL into SCID mice without prior conditioning of the mice resulted in detectable differences in quantitative histological scores of brain inflammation due to Toxoplasma gondii infection, but did not alter mortality when compared to SCID mouse controls. The lack of detectable differences in survival were due to inadequate engraftment of hu-PBL, as assessed by flow cytometry. Unconditioned hu-PBL SCID mice had low titre T. gondii-specific antibody detectable after infection. When pretransplantation conditioning with irradiation and antiasialo GM 1 (n-glucolyl neuraminic acid) antibody was used, prolonged hu-PBL engraftment was observed in SCID mice, which was associated with worsened histopathology and usually impaired survival when compared with SCID mouse controls. When pretransplantation conditioning with irradiation, antiasialo GM antibody and polyethylene glycol-conjugated IL-2 was used, prolonged hu-PBL engraftment was also documented, but this did not affect survival from T. gondii infection when compared with similarly conditioned SCID mouse controls. The latter conditioning protocol resulted in hu-PBL SCID mice producing high titre T. gondii-specific antibody after infection. Conditioned hu-PBL SCID mice had evidence of increased T. gondii-induced inflammatory scores when compared with conditioned SCID mice. These models show promise for the study of the pathogenesis of toxoplasmosis and conditioned hu-PBL SCID mice may have applications for the evaluation of novel therapies for toxoplasmosis in immunocompromised humans.     

Human Rotavirus-Specific IgM Memory B Cells Have Differential Cloning Efficiencies and Switch Capacities and Play a Role in Antiviral Immunity In Vivo

Protective immunity to rotavirus (RV) is primarily mediated by antibodies produced by RV-specific memory B cells (RV-mBc). Of note, most of these cells express IgM, but the function of this subset is poorly understood. Here, using limiting dilution assays of highly sort-purified human IgM(+) mBc, we found that 62% and 21% of total (non-antigen-specific) IgM(+) and RV-IgM(+) mBc, respectively, switched in vitro to IgG production after polyclonal stimulation. Moreover, in these assays, the median cloning efficiencies of total IgM(+) (17%) and RV-IgM(+) (7%) mBc were lower than those of the corresponding switched (IgG(+) IgA(+)) total (34%) and RV-mBc (17%), leading to an underestimate of their actual frequency. In order to evaluate the in vivo role of IgM(+) RV-mBc in antiviral immunity, NOD/Shi-scid interleukin-2 receptor-deficient (IL-2Rγ(null)) immunodeficient mice were adoptively transferred highly purified human IgM(+) mBc and infected with virulent murine rotavirus. These mice developed high titers of serum human RV-IgM and IgG and had significantly lower levels than control mice of both antigenemia and viremia. Finally, we determined that human RV-IgM(+) mBc are phenotypically diverse and significantly enriched in the IgM(hi) IgD(low) subset. Thus, RV-IgM(+) mBc are heterogeneous, occur more frequently than estimated by traditional limiting dilution analysis, have the capacity to switch Ig class in vitro as well as in vivo, and can mediate systemic antiviral immunity.     

Ex vivo expanded human CD4+CD25+Foxp3+ regulatory T cells prevent lethal xenogenic graft versus host disease (GVHD)

Mouse studies demonstrated that infusion of CD4+CD25+ regulatory T cells (Tregs) prevented graft versus host disease (GVHD) lethality after bone marrow transplantation (BMT). But the potential impact of human Tregs on GVHD has not been well demonstrated. In this study, we demonstrated that human Tregs enriched from peripheral blood of healthy donors could be expanded ex vivo to clinically relevant cell numbers in 2-3 weeks while maintaining Foxp3, CD25, CTLA-4, and CD62L expression as well as in vitro suppressive function. Furthermore, injection of human PBL into NOD/SCID mice induced lethal xenogenic GVHD, but co-transfer of expanded human Tregs with human PBL significantly enhanced survival, reduced GVHD symptoms, and inhibited human IgG/IgM production in the NOD/SCID mice. These results demonstrated that ex vivo expanded human Tregs retained their in vivo suppressive activity and prevented lethal xenogeneic GVHD, revealing the therapeutic potential of expanded human Tregs for GVHD.     

B lymphocytes not required for progression from insulitis to diabetes in non-obese diabetic mice

Previous studies have implicated B lymphocytes in the pathogenesis of diabetes in the non-obese diabetic (NOD) mouse. While it is clear that B lymphocytes are necessary, it has not been clear at which stage of disease they play a role; early, late or both. To clarify when B lymphocytes are needed, T lymphocytes were transferred from 5-week-old NOD female mice to age-matched NOD/severe combined immunodeficiency (SCID) recipient mice. NOD/SCID mice, which lack functionally mature T and B lymphocytes, do not normally develop insulitis or insulin-dependent diabetes melitus (IDDM). The NOD/SCID mice that received purified T lymphocytes from 5-week-old NOD mice subsequently developed insulitis and diabetes even though they did not have detectable B lymphocytes. This suggests that while B lymphocytes may be essential for an initial priming event they are not requisite for disease progression in the NOD mouse.     

B cells are crucial for determinant spreading of T cell autoimmunity among beta cell antigens in diabetes-prone nonobese diabetic mice

The determinant spreading of T cell autoimmunity plays an important role in the pathogenesis of type 1 diabetes and in the protective mechanism of Ag-based immunotherapy in NOD mice. However, little is known about the role of APCs, particularly B cells, in the spreading of T cell autoimmunity. We studied determinant spreading in NOD/scid or Igmu(-/-) NOD mice reconstituted with NOD T and/or B cells and found that mice with mature B cells (TB NOD/scid and BMB Igmu(-/-) NOD), but not mice that lacked mature B cells (T NOD/scid and BM Igmu(-/-) NOD), spontaneously developed Th1 autoimmunity, which spread sequentially among different beta cell Ags. Immunization of T NOD/scid and BM Igmu(-/-) NOD mice with a beta cell Ag could prime Ag-specific Th1 or Th2 responses, but those T cell responses did not spread to other beta cell Ags. In contrast, immunization of TB NOD/scid and BMB Igmu(-/-) NOD mice with a beta cell Ag in IFA induced Th2 responses, which spread to other beta cell Ags. Furthermore, we found that while macrophages and dendritic cells could evoke memory and effector T cell responses in vitro, B cells significantly enhanced the detection of spontaneously primed and induced Th1 responses to beta cell Ags. Our data suggest that B cells, but not other APCs, mediate the spreading of T cell responses during the type 1 diabetes process and following Ag-based immunotherapy. Conceivably, the modulation of the capacity of B cells to present Ag may provide new interventions for enhancing Ag-based immunotherapy and controlling autoimmune diseases.     

Circulating immunoglobulin G can play a critical role in clearance of intestinal reovirus infection.

Reoviruses are encapsidated double-stranded RNA viruses that cause systemic disease in mice after peroral (p.o.) inoculation and primary replication in the intestine. In this study, we define components of the immune system involved in the clearing of reovirus from the proximal small intestine. The intestines of immunocompetent adult CB17, 129, and C57BL/6 mice were cleared of reovirus serotype 3 clone 9 (T3C9) within 7 days of p.o. inoculation. Antigen-specific lymphocytes were important for the clearance of intestinal infection, since severe combined immunodeficient (SCID) mice failed to clear T3C9 infection. To define specific immune components required for intestinal clearance, reovirus infection of mice with null mutations in the immunoglobulin M (IgM) transmembrane exon (MuMT; B cell and antibody deficient) or beta 2 microglobulin gene (beta 2-/-; CD8 deficient) was evaluated. beta 2-/- mice cleared reovirus infection with normal kinetics, while MuMT mice showed delayed clearance of T3C9 7 to 11 days after p.o. inoculation. Adoptive transfer of splenic lymphocytes from reovirus-immune CB17 mice inhibited growth of T3C9 in CB17 SCID mouse intestine 11 days after p.o. inoculation. The efficiency of viral clearance by adoptively transferred cells was significantly diminished by depletion of B cells prior to adoptive transfer. Results in SCID and MuMT mice demonstrate an important role for B cells or IgG in clearance of reovirus from the intestines. Polyclonal reovirus-immune rabbit serum, protein A-purified immune IgG, and murine monoclonal IgG2a antibody specific for reovirus outer capsid protein sigma 3 administered intraperitoneally all normalized clearance of reovirus from intestinal tissue in MuMT mice. This result demonstrates an IgA-independent role for IgG in the clearance of intestinal virus infection. Polyclonal reovirus-immune serum also significantly decreased reovirus titers in the intestines of SCID mice, demonstrating a T-cell-independent role for antibody in the clearance of intestinal reovirus infection. B cells and circulating IgG play an important role in the clearance of reovirus from intestines, suggesting that IgG may play a more prominent functional role at mucosal sites of primary viral replication than was previously supposed.     

Beta-cell apoptosis in an accelerated model of autoimmune diabetes.

BACKGROUND: The non-obese diabetic (NOD) mouse is a model of human type 1 diabetes in which autoreactive T cells mediate destruction of pancreatic islet beta cells. Although known to be triggered by cytotoxic T cells, apoptosis has not been unequivocally localized to beta cells in spontaneously diabetic NOD mice. We created a model of accelerated beta-cell destruction mediated by T cells from spontaneously diabetic NOD mice to facilitate the direct detection of apoptosis in beta cells. MATERIALS AND METHODS: NOD.scid (severe combined immunodeficiency) mice were crossed with bm1 mice transgenically expressing the costimulatory molecule B7-1 (CD80) in their beta cells, to generate B7-1 NOD.scid mice. Apoptosis in islet cells was measured as DNA strand breakage by the TdT-mediated-dUTP-nick end labeling (TUNEL) technique. RESULTS: Adoptive transfer of splenocytes from spontaneously diabetic NOD mice into B7-1 NOD.scid mice caused diabetes in recipients within 12-16 days. Mononuclear cell infiltration and apoptosis were significantly greater in the islets of B7-1 NOD.scid mice than in nontransgenic NOD.scid mice. Dual immunolabeling for TUNEL and either B-7 or insulin, or the T cell markers CD4 and CD8, and colocalization by confocal microscopy clearly demonstrated apoptosis in beta cells as well in a relatively larger number of infiltrating T cells. The clearance time of apoptotic beta cells was estimated to be less than 6 min. CONCLUSIONS: B7-1 transgenic beta cells undergo apoptosis during their accelerated destruction in response to NOD mouse effector T cells. Rapid clearance implies that beta cells undergoing apoptosis would be detected only rarely during more protracted disease in spontaneously diabetic NOD mice.     

Intra-thymic/splenic engraftment of human T cells in HLA-DR1 transgenic NOD/scid mice

A HLA-DR1 transgenic mouse (NOD/scid-DR1) was derived by breeding the existing B10.M/J-[Tg]DR1 mouse with the NOD/scid mouse. The intention was to enhance engraftment of human T cells by providing human class II elements in the tissues. Thymus and spleen fragments from adult NOD/scid-DR1 mice were transplanted under the syngeneic kidney capsules, followed by injection of human cord blood mononuclear cells (CBMNC) into transplanted tissues. FACS analyses showed that human T and B cells were consistently detected in the peripheral blood and spleen, of the chimeric mice. An average of 20% of human cells was found in the spleen and the engrafted thymus/spleen tissues. Furthermore, human cells from these tissues could proliferate with anti-human CD3 antibody and these mice could generate humoral and cellular responses to allogeneic human cells. Cytokines, such as IL-10, GMCSF, IFN-gamma, and TNF-alpha were also detected in the supernatants of the cultured human cells from the chimeric mice, when they were stimulated with allogeneic cells. Therefore, a novel mouse model with functional circulating human T and B cells was established that would facilitate the exploration of vaccine, the disease processes of autoimmunity, HIV infection, and human cancer.     

The hepatitis B virus core and e antigens elicit different Th cell subsets: antigen structure can affect Th cell phenotype.

Secretion of the hepatitis B virus (HBV) e antigen (HBeAg) has been conserved throughout the evolution of hepadnaviruses. However, the function of this secreted form of the viral nucleoprotein remains enigmatic. It has been suggested that HBeAg functions as an immunomodulator. We therefore examined the possibility that the two structural forms of the viral nucleoprotein, the particulate HBV core (HBcAg) and the nonparticulate HBeAg, may preferentially elicit different T helper (Th) cell subsets. For this purpose, mice were immunized with recombinant HBcAg and HBeAg in the presence and absence of adjuvants, and the immunoglobulin G (IgG) isotype profiles of anti-HBc and anti-HBe antibodies were determined. Second, in vitro cytokine production by HBcAg- and HBeAg-primed Th cells was measured. The immunogenicity of HBcAg, in contrast to that of HBeAg, did not require the use of adjuvants. Furthermore, HBcAg elicited primarily IgG2a and IgG2b anti-HBc antibodies, with a low level of IgG3, and no IgG1 anti-HBc antibodies. In contrast, the anti-HBe antibody response was dominated by the IgG1 isotype; low levels of IgG2a or IgG2b anti-HBe antibodies and no IgG3 anti-HBe antibodies were produced. Cytokine production by HBcAg- and HBeAg-primed Th cells was consistent with the IgG isotype profiles. HBcAg-primed Th cells efficiently produced interleukin-2 (IL-2) and gamma interferon (IFN-gamma) and low levels of IL-4. Conversely, efficient IL-4 production and lesser amounts of IFN-gamma were elicited by HBeAg immunization. The results indicate that HBcAg preferentially, but not exclusively, elicits Th1-like cells and that HBeAg preferentially, but not exclusively, elicits Th0 or Th2-like cells. Because HBcAg and the HBeAg are cross-reactive in terms of Th cell recognition, these findings demonstrate that Th cells with the same specificity can develop into different Th subsets based on the structural form of the immunogen. These results may have relevance to chronic HBV infection. Circulating HBeAg may downregulate antiviral clearance mechanisms by virtue of eliciting anti-inflammatory Th2-like cytokine production. Last, the influence of antigen structure on Th cell phenotype was not absolute and could be modulated by in vivo cytokine treatment. For example, IFN-alpha treatment inhibited HBeAg-specific Th2-mediated antibody production and altered the IgG anti-HBe isotype profile toward the Th1 phenotype.     

Blockade of late stages of autoimmune diabetes by inhibition of the receptor for advanced glycation end products

Ligation of the receptor for advanced glycation end products (RAGE) occurs during inflammation. Engagement of RAGE results in enhanced expression of addressins and it is therefore, not surprising that previous studies have shown a role of RAGE/ligand interactions in immune responses including cell/cell contact but the role of RAGE in spontaneous autoimmunity has not been clearly defined. To study the role of RAGE/ligand interactions in autoimmune diabetes, we tested the ability of soluble RAGE, a scavenger of RAGE ligands, in late stages of diabetes development in the NOD mouse-disease transferred with diabetogenic T cells and recurrent disease in NOD/scid recipients of syngeneic islet transplants. RAGE expression was detected on CD4(+), CD8(+), and B cells from diabetic mice and transferred to NOD/scid recipients. RAGE and its ligand, S100B, were found in the islets of NOD/scid mice that developed diabetes. Treatment of recipient NOD/scid mice with soluble RAGE prevented transfer of diabetes and delayed recurrent disease in syngeneic islet transplants. RAGE blockade was associated with increased expression of IL-10 and TGF-beta in the islets from protected mice. RAGE blockade reduced the transfer of disease with enriched T cells, but had no effect when diabetes was transferred with the activated CD4(+) T cell clone, BDC2.5. We conclude that RAGE/ligand interactions are involved in the differentiation of T cells to a mature pathogenic phenotype during the late stages of the development of diabetes.     

Soluble CD40 ligand-activated B cells from patients with chronic hepatitis B virus infection as antigen presenting cells to induce hepatitis B virus specific cytotoxic T lymphocytes

Chronic hepatitis B virus (HBV) infection is the result of an inadequate antiviral immune response to the virus. In this study, we aimed to investigate whether the soluble CD40 ligand-activated B (CD40-B) cells could present antigen and induce specific cytotoxic T lymphocytes (CTLs) in patients with chronic HBV infection. We observed that after activated by sCD40L, the expression of CD80, CD86, major histocompatibility complex (MHC) I and II molecules on the CD40-B cells was significantly increased. Cytometry and fluorescence microscopy showed that more than 41.34% CD40-B cells were loaded by the HBcAg peptide. Furthermore, after been activated and HBcAg18–27 antigen peptide pulsed, B cells obtained from patients with chronic HBV infection could induce HBcAg18–27 specific CTLs in vitro. Taken together, our results show that B cells from patients with chronic HBV infection can be activated by sCD40L and may function as antigen presenting cells and induce HBV-specific CTLs.     

Human Immunodeficiency Virus Type 1 Strains R5 and X4 Induce Different Pathogenic Effects in hu-PBL-SCID Mice, Depending on the State of Activation/Differentiation of Human Target Cells at the Time of Primary Infection

In a previous study, we had found that the extent of T-cell dysfunctions induced by a T-tropic strain of human immunodeficiency virus type 1 (HIV-1) in SCID mice reconstituted with human peripheral blood lymphocytes (hu-PBLs) (hu-PBL-SCID mice) was related to the in vivo state of activation of the human lymphocytes. In this article, we compared the effect of infection of hu-PBL-SCID mice with either T-tropic (X4) or M-tropic (R5) strains of HIV-1 by performing virus inoculation at either 2 h or 2 weeks after the hu-PBL transfer, when the human T cells exhibited a marked activation state or a predominant memory phenotype, respectively. A comparable level of infection was found when hu-PBL-SCID mice were challenged with either the SF162 R5 or the IIIB X4 strain of HIV at 2 h postreconstitution, while at 2 weeks, the R5 virus infection resulted in a higher level of HIV replication than the X4 virus. The R5 strain induced a marked human CD4(+) T-cell depletion along with a drop in levels of human immunoglobulin M in serum and release of soluble factors at both infection times, while the X4 virus induced severe immune dysfunctions only at 2 h. Of interest, injection of hu-PBLs into SCID mice resulted in a marked up-regulation of CCR5 on human CD4(+) T cells. The percentage of CXCR4(+) cells did not change after transplantation, even though a significant decrease in antigen expression was observed. Comparative experiments with two molecular clones of HIV-1 (X4 SF2 and R5 SF162) and two envelope recombinant viruses generated from these viruses showed that R5 viruses (SF162 and the chimeric env-SF162-SF2) caused an extensive depletion of human CD4(+) T cells in SCID mice at both 2 h and 2 weeks after reconstitution, while the X4 viruses (SF2 and the chimeric env-SF2-SF162) induced CD4 T-cell depletion only when infection was performed at the 2-h reconstitution time. These results emphasize the importance of the state of activation/differentiation of human CD4(+) T cells and gp120-coreceptor interactions at the time of primary infection in determining HIV-1 pathogenicity in the hu-PBL-SCID mouse model.     

Overexpression of hepatitis B virus-binding protein, squamous cell carcinoma antigen 1, extends retention of hepatitis B virus in mouse liver

How receptors mediate the entry of hepatitis B virus （HBV） into the target liver cells is poorly understood. Recently, human squamous cell carcinoma antigen 1 （SCCA1） has been found to mediate binding and internalization of HBV to liver-derived cell lines in vitro. In this report, we investigate if SCCA1 is able to function as an HBV receptor and mediate HBV entry into mouse liver. SCCA1 transgene under the control of Rous sarcoma virus promoter was constructed in a minicircle DNA vector that was delivered to NOD/SCID mouse liver using the hydrodynamic technique. Subsequently, HBV-positive human serum was injected intravenously. We demonstrated that approximately 30% of the mouse liver cells expressed a high level of recombined SCCA1 protein for at least 37 d. The HBV surface antigen was found to persist in mouse liver for up to 17 d. Furthermore, HBV genome also persisted in mouse liver, as determined by polymerase chain reaction, for up to 17 d, and in mouse circulation for 7 d. These results suggest that SCAA1 might serve as an HBV receptor or co-receptor and play an important role in mediating HBV entry into hepatocytes, although its role in human HBV infection remains to be determined.