The programmed death-1 and interleukin-10 pathways play a down-modulatory role in LP-BM5 retrovirus-induced murine immunodeficiency syndrome

Pathology due to the immune system's response to viral infections often represents a delicate balance between inhibition of viral pathogenesis and regulation of protective immunity. In susceptible C57BL/6 (B6) mice, the murine retroviral isolate LP-BM5 induces splenomegaly, hypergammaglobulinemia, profound B- and T-cell immunodeficiency, and increased susceptibility to opportunistic pathogens and terminal B-cell lymphomas. Here, we report that B6.PD-1 (programmed death-1) and B6.IL-10 knockout mice are substantially more susceptible to LP-BM5-induced disease than wild-type B6 mice. LP-BM5-infected B6.PD-1^−/− mice developed more severe splenomegaly, hypergammaglobulinemia, and immunodeficiency than infected B6 mice: PD-1^−/− mice are more susceptible to lower doses of LP-BM5 and show more exaggerated disease early postinfection. LP-BM5-infected B6.IL-10^−/− mice also develop exaggerated LP-BM5-induced disease, compared to B6 mice, without a significant change in the retroviral load. By reciprocal reconstitution experiments, comparing wild-type versus PD-1^−/− sources of the requisite cells for LP-BM5 pathogenesis—CD4 T and B cells, PD-1⁺ B cells appear to be crucial in the normal limitation of LP-BM5-induced disease in B6 mice. Also, infected B6 mice have increased CD11b⁺ spleen cells that express interleukin-10 (IL-10). However, PD-1^−/− mice, though showing an even greater expansion of CD11b⁺ cells after LP-BM5 inoculation, did not show an equivalent increase in IL-10-producing cells. Thus, it appears that PD-1/PD-L interactions and IL-10 are primarily important in moderating the effects of LP-BM5-induced disease in B6 mice.     

Human Mucosal Associated Invariant T Cells Detect Bacterially Infected Cells

Control of infection with Mycobacterium tuberculosis (Mtb) requires Th1-type immunity, of which CD8⁺ T cells play a unique role. High frequency Mtb-reactive CD8⁺ T cells are present in both Mtb-infected and uninfected humans. We show by limiting dilution analysis that nonclassically restricted CD8⁺ T cells are universally present, but predominate in Mtb-uninfected individuals. Interestingly, these Mtb-reactive cells expressed the Vα7.2 T-cell receptor (TCR), were restricted by the nonclassical MHC (HLA-Ib) molecule MR1, and were activated in a transporter associated with antigen processing and presentation (TAP) independent manner. These properties are all characteristics of mucosal associated invariant T cells (MAIT), an “innate” T-cell population of previously unknown function. These MAIT cells also detect cells infected with other bacteria. Direct ex vivo analysis demonstrates that Mtb-reactive MAIT cells are decreased in peripheral blood mononuclear cells (PBMCs) from individuals with active tuberculosis, are enriched in human lung, and respond to Mtb-infected MR1-expressing lung epithelial cells. Overall, these findings suggest a generalized role for MAIT cells in the detection of bacterially infected cells, and potentially in the control of bacterial infection.     

Overexpression of Interleukin-15 Compromises CD4-Dependent Adaptive Immune Responses against Herpes Simplex Virus 2

Interleukin-15 (IL-15) is necessary for the development and function of NK/NKT cells and the maintenance of naive and memory CD8⁺ T cells. In the absence of IL-15, protective innate immunity is not available; however, a functional adaptive immune response against vaginal herpes simplex virus 2 (HSV-2) is generated. Mice overexpressing IL-15 (IL-15tg mice) have higher numbers of NK cells, greater NK-derived gamma interferon, and more CD8⁺ T cells. Here we examined the consequences of IL-15 overexpression for innate and adaptive immunity against genital HSV-2. Surprisingly, IL-15tg mice immunized against HSV-2 were not protected against genital HSV-2 challenge compared to control immunized mice. IL-15tg mice had a higher frequency of NK cells in the genital mucosa than control mice. However, immunized IL-15tg mice had significantly lower numbers of HSV-2-specific CD4⁺ T cells than B6 mice. We then confirmed that CD4⁺ T cells, but not CD8⁺ T cells, are essential for protection against intravaginal HSV-2 challenge. Since we observed less protection in immunized IL-15tg mice, we then examined if the adaptive immune responses generated in an environment with overexpression of IL-15 could provide protection against HSV-2 in an environment with normal levels of IL-15 expression. We adoptively transferred immunized cells from IL-15tg and B6 mice into naive RAG-1^−/− mice and found that the cells from immunized IL-15tg mice were able to provide protection in this IL-15-normal environment. Our data suggest that overexpression of IL-15 results in a reduced CD4⁺ T cell-mediated adaptive immune response against genital HSV-2.     

IL-4Rα-Associated Antigen Processing by B Cells Promotes Immunity in Nippostrongylus brasiliensis Infection

In this study, B cell function in protective T_H2 immunity against N. brasiliensis infection was investigated. Protection against secondary infection depended on IL-4Rα and IL-13; but not IL-4. Protection did not associate with parasite specific antibody responses. Re-infection of B cell-specific IL-4Rα^−/− mice resulted in increased worm burdens compared to control mice, despite their equivalent capacity to control primary infection. Impaired protection correlated with reduced lymphocyte IL-13 production and B cell MHC class II and CD86 surface expression. Adoptive transfer of in vivo N. brasiliensis primed IL-4Rα expressing B cells into naïve BALB/c mice, but not IL-4Rα or IL-13 deficient B cells, conferred protection against primary N. brasiliensis infection. This protection required MHC class II compatibility on B cells suggesting cognate interactions by B cells with CD4⁺ T cells were important to co-ordinate immunity. Furthermore, the rapid nature of these protective effects by B cells suggested non-BCR mediated mechanisms, such as via Toll Like Receptors, was involved, and this was supported by transfer experiments using antigen pulsed Myd88^−/− B cells. These data suggest TLR dependent antigen processing by IL-4Rα-responsive B cells producing IL-13 contribute significantly to CD4⁺ T cell-mediated protective immunity against N. brasiliensis infection.     

Expansion of human cytomegalovirus (HCMV) immediate-early 1-specific CD8+ T cells and control of HCMV replication after allogeneic stem cell transplantation

Recovery of human cytomegalovirus (HCMV)-specific T immunity is critical for protection against HCMV disease in the early phase after allogeneic stem cell transplantation (SCT). Using an enzyme-linked immunospot assay with overlapping 15-mer peptides spanning pp65 and immediate-early 1 HCMV proteins, we investigated which HCMV-specific CD8⁺ gamma interferon-positive (IFN-γ⁺) T-cell responses against pp65 and IE-1 were associated with control of HCMV replication in 48 recipients of unmanipulated HLA-matched allografts at 3 months (M3) and 6 months (M6) after SCT and in 23 donors. At M3 after SCT, the magnitude of the pp65-specific IFN-γ-producing CD8⁺ T-cell response was greater in recipients than in donors, regardless of HCMV status. In contrast, expansion of IE-1-specific CD8⁺ T cells at M3 was associated with protection against HCMV, and no patient with this expansion had HCMV replication at M3. At M6, the number of HCMV-specific CD8⁺ T cells against both pp65 and IE-1 had expanded in all recipients, regardless of their previous levels of HCMV replication. The recipients' HCMV-specific CD8⁺ T cells already detectable in related donors were predominantly targeting pp65. In contrast, in 40% of the cases, the HCMV-specific CD8⁺ T cells in recipients involved new CD8⁺ T-cell specificities undetectable in their related donors and preferentially targeting IE-1. Taken together, these results showed that the delay in reconstituting IE-1-specific CD8⁺ T cells is correlated with the lack of protection against HCMV in the first 3 months after SCT. They also show that IE-1 is a major antigenic determinant of the early restoration of protective immunity to HCMV after SCT.     

Highly Differentiated,Resting Gn-Specific Memory CD8+ T Cells Persist Years after Infection by Andes Hantavirus

In man, infection with South American Andes virus (ANDV) causes hantavirus cardiopulmonary syndrome (HCPS). HCPS due to ANDV is endemic in Southern Chile and much of Argentina and increasing numbers of cases are reported all over South America. A case-fatality rate of about 36% together with the absence of successful antiviral therapies urge the development of a vaccine. Although T-cell responses were shown to be critically involved in immunity to hantaviruses in mouse models, no data are available on the magnitude, specificity and longevity of ANDV-specific memory T-cell responses in patients. Using sets of overlapping peptides in IFN-γ ELISPOT assays, we herein show in 78 Chilean convalescent patients that Gn-derived epitopes were immunodominant as compared to those from the N- and Gc-proteins. Furthermore, while the relative contribution of the N-specific response significantly declined over time, Gn-specific responses remained readily detectable ex vivo up to 13 years after the acute infection. Tetramer analysis further showed that up to 16.8% of all circulating CD3⁺CD8⁺ T cells were specific for the single HLA-B*3501-restricted epitope Gn_465–473 years after the acute infection. Remarkably, Gn_465–473–specific cells readily secreted IFN-γ, granzyme B and TNF-α but not IL-2 upon stimulation and showed a ‘revertant’ CD45RA⁺CD27⁻CD28⁻CCR7⁻CD127⁻ effector memory phenotype, thereby resembling a phenotype seen in other latent virus infections. Most intriguingly, titers of neutralizing antibodies increased over time in 10/17 individuals months to years after the acute infection and independently of whether they were residents of endemic areas or not. Thus, our data suggest intrinsic, latent antigenic stimulation of Gn-specific T-cells. However, it remains a major task for future studies to proof this hypothesis by determination of viral antigen in convalescent patients. Furthermore, it remains to be seen whether Gn-specific T cells are critical for viral control and protective immunity. If so, Gn-derived immunodominant epitopes could be of high value for future ANDV vaccines.     

Protection against a Lethal Avian Influenza A Virus in a Mammalian System

The question of how best to protect the human population against a potential influenza pandemic has been raised by the recent outbreak caused by an avian H5N1 virus in Hong Kong. The likely strategy would be to vaccinate with a less virulent, laboratory-adapted H5N1 strain isolated previously from birds. Little attention has been given, however, to dissecting the consequences of sequential exposure to serologically related influenza A viruses using contemporary immunology techniques. Such experiments with the H5N1 viruses are limited by the potential risk to humans. An extremely virulent H3N8 avian influenza A virus has been used to infect both immunoglobulin-expressing (Ig^+/+) and Ig^−/− mice primed previously with a laboratory-adapted H3N2 virus. The cross-reactive antibody response was very protective, while the recall of CD8⁺ T-cell memory in the Ig^−/− mice provided some small measure of resistance to a low-dose H3N8 challenge. The H3N8 virus also replicated in the respiratory tracts of the H3N2-primed Ig^+/+ mice, generating secondary CD8⁺ and CD4⁺ T-cell responses that may contribute to recovery. The results indicate that the various components of immune memory operate together to provide optimal protection, and they support the idea that related viruses of nonhuman origin can be used as vaccines.     

Absence of Macrophage Inflammatory Protein-1α Prevents the Development of Blinding Herpes Stromal Keratitis

Prior studies in our laboratory have suggested that the CC chemokine macrophage inflammatory protein-1α (MIP-1α) may be an important mediator in the blinding ocular inflammation which develops following herpes simplex virus type 1 (HSV-1) infection of the murine cornea. To directly test this hypothesis, MIP-1α-deficient (−/−) mice and their wild-type (+/+) counterparts were infected topically on the scarified cornea with 2.5 × 10⁵ PFU of HSV-1 strain RE and subsequently graded for corneal opacity. Four weeks postinfection (p.i.), the mean corneal opacity score of −/− mice was 1.1 ± 0.3 while that of the +/+ mice was 3.7 ± 0.5. No detectable infiltrating CD4⁺ T cells were seen histologically at 14 or 21 days p.i. in −/− animals, whereas the mean CD4⁺ T-cell count per field (36 fields counted) in +/+ hosts was 26 ± 2 (P < 0.001). In addition, neutrophil counts in the −/− mouse corneas were reduced by >80% in comparison to the wild-type controls. At 2 weeks p.i., no interleukin-2 or gamma interferon could be detected in six of seven −/− mice, whereas both T-cell cytokines were readily demonstrable in +/+ mouse corneas. Also, MIP-2 and monocyte chemoattractant protein-1 protein levels were significantly lower in MIP-1α −/− mouse corneas than in +/+ host corneas, suggesting that MIP-1α directly, or more likely indirectly, influences the expression of other chemokines. Interestingly, despite the paucity of infiltrating cells, HSV-1 clearance from the eyes of −/− mice was not significantly different from that observed in +/+ hosts. We conclude that MIP-1α is not needed to control virus growth in the cornea but is essential for the development of severe stromal keratitis.     

MyD88 Intrinsically Regulates CD4 T-Cell Responses

Myeloid differentiation factor 88 (MyD88) is an essential adaptor protein in the Toll-like receptor-mediated innate signaling pathway, as well as in interleukin-1 receptor (IL-1R) and IL-18R signaling. The importance of MyD88 in the regulation of innate immunity to microbial pathogens has been well demonstrated. However, its role in regulating acquired immunity to viral pathogens and neuropathogenesis is not entirely clear. In the present study, we examine the role of MyD88 in the CD4⁺ T-cell response following lymphocytic choriomeningitis virus (LCMV) infection. We demonstrate that wild-type (WT) mice developed a CD4⁺ T-cell-mediated wasting disease after intracranial infection with LCMV. In contrast, MyD88 knockout (KO) mice did not develop wasting disease in response to the same infection. This effect was not the result of MyD88 regulation of IL-1 or IL-18 responses since IL-1R1 KO and IL-18R KO mice were not protected from weight loss. In the absence of MyD88, naïve CD4⁺ T cells failed to differentiate to LCMV-specific CD4 T cells. We demonstrated that MyD88 KO antigen-presenting cells are capable of activating WT CD4⁺ T cells. Importantly, when MyD88 KO CD4⁺ T cells were reconstituted with an MyD88-expressing lentivirus, the rescued CD4⁺ T cells were able to respond to LCMV infection and support IgG2a antibody production. Overall, these studies reveal a previously unknown role of MyD88-dependent signaling in CD4⁺ T cells in the regulation of the virus-specific CD4⁺ T-cell response and in viral infection-induced immunopathology in the central nervous system.     

Immunophenotypic Lymphocyte Profiles in Human African Trypanosomiasis

Human African trypanosomiasis (HAT) is a deadly vector-born disease caused by an extracellular parasite, the trypanosome. Little is known about the cellular immune responses elicited by this parasite in humans. We used multiparameter flow cytometry to characterize leukocyte immunophenotypes in the blood and cerebrospinal fluid (CSF) of 33 HAT patients and 27 healthy controls identified during a screening campaign in Angola and Gabon. We evaluated the subsets and activation markers of B and T lymphocytes. Patients had a higher percentage of CD19⁺ B lymphocytes and activated B lymphocytes in the blood than did controls, but lacked activated CD4+ T lymphocytes (CD25⁺). Patients displayed no increase in the percentage of activated CD8+ T cells (HLA-DR⁺, CD69⁺ or CD25⁺), but memory CD8 T-cell levels (CD8⁺CD45RA⁻) were significantly lower in patients than in controls, as were effector CD8 T-cell levels (CD8⁺CD45RA⁺CD62L⁻). No relationship was found between these blood immunophenotypes and disease severity (stage 1 vs 2). However, CD19⁺ B-cell levels in the CSF increased with disease severity. The patterns of T and B cell activation in HAT patients suggest that immunomodulatory mechanisms may operate during infection. Determinations of CD19⁺ B-cell levels in the CSF could improve disease staging.     

Efficient, Repeated Adenovirus-Mediated Gene Transfer in Mice Lacking both Tumor Necrosis Factor Alpha and Lymphotoxin α

The efficiency of adenovirus-mediated gene transfer is now well established. However, the cellular and the humoral immune responses triggered by vector injection lead to the rapid elimination of the transduced cells and preclude any efficient readministration. The present investigation focuses on the role of tumor necrosis factor alpha (TNF-α), a proinflammatory cytokine, and the related cytokine lymphotoxin α (LTα), in mounting an immune reaction against recombinant adenovirus vectors. After gene transfer in the liver, mice genetically deficient for both cytokines (TNF-α/LTα^−/−), in comparison with normal mice, presented a weak acute-phase inflammatory reaction, a reduction in cellular infiltrates in the liver, and a severely impaired T-cell proliferative response to both Adenoviral and transgene product antigens. Moreover, we observed a strong reduction in the humoral response to the vector and the transgene product, with a drastic reduction of anti-adenovirus immunoglobulin A and G antibody isotypes. In addition, the reduction in antibody response observed in TNF-α/LTα^−/− and TNF-α/LTα^+/− mice versus TNF-α/LTα^+/+ mice links antibody levels to TNF-α/LTα gene dosage. Due to the absence of neutralizing antibodies, the TNF-α/LTα knockout mice successfully express a second gene transduced by a second vector injection. The discovery of the pivotal role played by TNF-α in controlling the antibody response against adenovirus will allow more efficient adenovirus-based strategies for gene therapy to be proposed.     

Protective CD4+ and CD8+ T Cells against Influenza Virus Induced by Vaccination with Nucleoprotein DNA

DNA vaccination is an effective means of eliciting both humoral and cellular immunity, including cytotoxic T lymphocytes (CTL). Using an influenza virus model, we previously demonstrated that injection of DNA encoding influenza virus nucleoprotein (NP) induced major histocompatibility complex class I-restricted CTL and cross-strain protection from lethal virus challenge in mice (J. B. Ulmer et al., Science 259:1745–1749, 1993). In the present study, we have characterized in more detail the cellular immune responses induced by NP DNA, which included robust lymphoproliferation and Th1-type cytokine secretion (high levels of gamma interferon and interleukin-2 [IL-2], with little IL-4 or IL-10) in response to antigen-specific restimulation of splenocytes in vitro. These responses were mediated by CD4⁺ T cells, as shown by in vitro depletion of T-cell subsets. Taken together, these results indicate that immunization with NP DNA primes both cytolytic CD8⁺ T cells and cytokine-secreting CD4⁺ T cells. Further, we demonstrate by adoptive transfer and in vivo depletion of T-cell subsets that both of these types of T cells act as effectors in protective immunity against influenza virus challenge conferred by NP DNA.Cellular immune responses play an important role in protection from disease caused by infectious pathogens, such as viruses and certain bacteria (e.g., Mycobacterium tuberculosis). The specific T cells involved in conferring immunity can include both CD4⁺ and CD8⁺ T cells, often through the action of secreted cytokines and cytolytic activity, respectively. Certain types of vaccines, such as subunit proteins and whole or partially purified preparations of inactivated organisms, in general induce CD4⁺ T-cell responses but not CD8⁺ cytotoxic T lymphocytes (CTL). In contrast, live attenuated organisms and subunit proteins formulated with certain experimental adjuvants can induce both types of responses. Recently, a different approach consisting of direct immunization with plasmid DNA expression vectors (i.e., DNA vaccines) has shown promise as a viable means of inducing broad-spectrum T-cell responses. The effectiveness of DNA vaccines in animal models is likely due, at least in part, to expression of antigens in situ (35), leading to the induction of CTL (29), antibodies (3, 4, 10, 21, 22, 32), and cytokine-secreting lymphocyte responses (12, 36). During the past 5 years, many reports have been published on the immunogenicity of DNA vaccines encoding various antigens in several animal models, thereby illustrating the applicability of the technology to many pathogens (for a review, see reference 6). However, in only a few instances has the nature of the effector cells responsible for protective immunity been described (7, 16). In the present study, we have analyzed in detail the cellular immune responses induced by influenza virus nucleoprotein (NP) DNA and have established that both CD4⁺ T cells secreting Th1-type cytokines and CD8⁺ cytotoxic T cells play important effector roles in heterosubtypic protective immunity against lethal influenza virus challenge in mice.     

Role of 4-1BB Receptor in the Control Played by CD8+ T Cells on IFN-γ Production by Mycobacterium tuberculosis Antigen-Specific CD4+ T Cells

Background

Antigen-specific IFN-γ producing CD4⁺ T cells are the main mediators of protection against Mycobacterium tuberculosis infection both under natural conditions and following vaccination. However these cells are responsible for lung damage and poor vaccine efficacy when not tightly controlled. Discovering new tools to control nonprotective antigen-specific IFN-γ production without affecting protective IFN-γ is a challenge in tuberculosis research.

Methods and Findings

Immunization with DNA encoding Ag85B, a candidate vaccine antigen of Mycobacterium tuberculosis, elicited in mice a low but protective CD4⁺ T cell-mediated IFN-γ response, while in mice primed with DNA and boosted with Ag85B protein a massive increase in IFN-γ response was associated with loss of protection. Both protective and non-protective Ag85B-immunization generated antigen-specific CD8⁺ T cells which suppressed IFN-γ-secreting CD4⁺ T cells. However, ex vivo ligation of 4-1BB, a member of TNF-receptor super-family, reduced the massive, non-protective IFN-γ responses by CD4⁺ T cells in protein-boosted mice without affecting the low protective IFN-γ-secretion in mice immunized with DNA. This selective inhibition was due to the induction of 4-1BB exclusively on CD8⁺ T cells of DNA-primed and protein-boosted mice following Ag85B protein stimulation. The 4-1BB-mediated IFN-γ inhibition did not require soluble IL-10, TGF-β, XCL-1 and MIP-1β. In vivo Ag85B stimulation induced 4-1BB expression on CD8⁺ T cells and in vivo 4-1BB ligation reduced the activation, IFN-γ production and expansion of Ag85B-specific CD4⁺ T cells of DNA-primed and protein-boosted mice.

Conclusion/Significance

Antigen-specific suppressor CD8⁺ T cells are elicited through immunization with the mycobacterial antigen Ag85B. Ligation of 4-1BB receptor further enhanced their suppressive activity on IFN-γ-secreting CD4⁺ T cells. The selective expression of 4-1BB only on CD8⁺ T cells in mice developing a massive, non-protective IFN-γ response opens novel strategies for intervention in tuberculosis pathology and vaccination through T-cell co-stimulatory-based molecular targeting.     

Clearance of an Influenza A Virus by CD4+ T Cells Is Inefficient in the Absence of B Cells

The primary CD8⁺ T-cell response protected most B-cell-deficient μMT mice against intranasal infection with the HKx31 influenza A virus. Prior exposure did not prevent reinfection upon homologous challenge, and the recall CD8⁺ T-cell response cleared the virus from the lung within 7 days. Depleting the CD8⁺ T cells substantially reduced the capacity of these primed mice to deal with the infection, in spite of evidence for established CD4⁺ T-cell memory. Thus, the control of this relatively mild influenza virus by both primary and secondary CD4⁺ T-cell responses is relatively inefficient in the absence of B cells and CD8⁺ T cells.     

Probiotic Bifidobacterium breve Induces IL-10-Producing Tr1 Cells in the Colon

Specific intestinal microbiota has been shown to induce Foxp3⁺ regulatory T cell development. However, it remains unclear how development of another regulatory T cell subset, Tr1 cells, is regulated in the intestine. Here, we analyzed the role of two probiotic strains of intestinal bacteria, Lactobacillus casei and Bifidobacterium breve in T cell development in the intestine. B. breve, but not L. casei, induced development of IL-10-producing Tr1 cells that express cMaf, IL-21, and Ahr in the large intestine. Intestinal CD103⁺ dendritic cells (DCs) mediated B. breve-induced development of IL-10-producing T cells. CD103⁺ DCs from Il10 ^−/−, Tlr2 ^−/−, and Myd88 ^−/− mice showed defective B. breve-induced Tr1 cell development. B. breve-treated CD103⁺ DCs failed to induce IL-10 production from co-cultured Il27ra ^−/− T cells. B. breve treatment of Tlr2 ^−/− mice did not increase IL-10-producing T cells in the colonic lamina propria. Thus, B. breve activates intestinal CD103⁺ DCs to produce IL-10 and IL-27 via the TLR2/MyD88 pathway thereby inducing IL-10-producing Tr1 cells in the large intestine. Oral B. breve administration ameliorated colitis in immunocompromised mice given naïve CD4⁺ T cells from wild-type mice, but not Il10 ^−/− mice. These findings demonstrate that B. breve prevents intestinal inflammation through the induction of intestinal IL-10-producing Tr1 cells.     

Induction of heterosubtypic immunity to influenza virus by intranasal immunization

Recovery from live influenza virus infection is known to induce heterosubtypic immunity. In contrast, immunity induced by inactivated vaccines is predominantly subtype specific. In this study, we investigated the heterosubtypic protective immunity induced by inactivated influenza virus. Intranasal immunization of mice with inactivated influenza virus A/PR8 (H1N1) provided complete protection against the homologous virus and a drift virus within the same subtype, A/WSN (H1N1), but not against the heterosubtypic virus A/Philippines (H3N2). However, coadministration of inactivated virus with cholera toxin as an adjuvant conferred complete heterosubtypic protection, without observed illness, even under conditions of CD4⁺ or CD8⁺ T-cell depletion. Analysis of immune correlates prior to challenge and postchallenge indicated that humoral immune responses with cross-neutralizing activity in lungs and in sera play a major role in conferring protective immunity against heterosubtypic challenge. This study has significant implications for developing broadly cross-reactive vaccines against newly emerging pathogenic influenza viruses.     

Tumor Immunity against a Simian Virus 40 Oncoprotein Requires CD8+ T Lymphocytes in the Effector Immune Phase

The required activities of CD4⁺ T cells and antibody against the virally encoded oncoprotein simian virus 40 (SV40) Tag have previously been demonstrated by our laboratory to be mediators in achieving antitumor responses and tumor protection through antibody-dependent cell-mediated cytotoxicity (ADCC). In this study, we further characterize the necessary immune cell components that lead to systemic tumor immunity within an experimental pulmonary metastatic model as the result of SV40 Tag immunization and antibody production. Immunized animals depleted of CD8⁺ T cells at the onset of experimental tumor cell challenge developed lung tumor foci and had an overall decreased survival due to lung tumor burden, suggesting a role for CD8⁺ T cells in the effector phase of the immune response. Lymphocytes and splenocytes harvested from SV40 Tag-immunized mice experimentally inoculated with tumor cells synthesized increased in vitro levels of the Th1 cytokine gamma interferon (IFN-γ), as assessed by enzyme-linked immunosorbent assay (ELISA) and flow cytometry assays. CD8⁺ T-cell activity was also heightened in SV40 Tag-immunized and tumor cell-challenged mice, based upon intracellular production of perforin, confirming the cytolytic properties of CD8⁺ T cells against tumor cell challenge. Altogether, these data point to the role of recombinant SV40 Tag protein immunization in initiating a cytotoxic T-lymphocyte (CTL) response during tumor cell dissemination and growth. The downstream activity of CD8⁺ T cells within this model is likely initiated from SV40 Tag-specific antibody mediating ADCC tumor cell destruction.Determining the immunologic mechanisms involved in antitumor responses can provide valuable insight into developing and formulating appropriate immunotherapeutic strategies against a range of human cancers (25). Cell-mediated immunity involving CD8⁺ T lymphocytes is generally regarded as the primary response to utilize due to its potent and efficient cytotoxicity against tumor cell targets in vitro and in animal models (10). Indeed, the proof of concept of this approach is best characterized by specialized conditioning protocols that involve autologous transfer of tumor infiltrating lymphocytes (TILs) in metastatic melanoma patients, with objective responses that approximate 70% (8). However, the efficacy of TILs harvested from additional cancer types have been less than effective, and additional strategies, such as genetic modification of peripheral blood mononuclear cells, are being explored to improve and extend the approach of cytotoxic T-lymphocyte (CTL) immunotherapy clinically (33, 46).The roles of immune components such as CD4⁺ T cells and antibody have been given less attention within the context of promoting tumor immunity against a range of tumor antigens. For example, the ability of CD4⁺ T cells to activate humoral immunity can lead to antitumor responses that involve antibody-dependent cell-mediated cytotoxicity (ADCC) (17). In this scenario, antibody binds its targeted antigen and effectors such as natural killer (NK) cells lyse tumorigenic cells through interaction with the Fc region of the bound antibody. The efficacy of ADCC has been realized in scenarios involving breast cancer and non-Hodgkin''s lymphoma, for example, and to date, the only FDA-approved immunologic treatments against these malignancies involve antibody-based therapies (5).The concurrent roles of antibody—with specific emphasis on ADCC—and CD8⁺ T-cell immunity within the context of tumor immunity have not been widely reported. Several recent studies have commented on the ability of antibody-bound tumor cells, particularly as a whole tumor cell-dendritic cell (DC) vaccination approach, to initiate CTL activity by engaging DCs through Fc receptors (9, 19, 34). However, to our knowledge, the mechanistic aspects of ADCC (e.g., NK-mediated lysis) promoting CD8⁺ T-cell activity have been explored in relatively few studies (27, 41). From an immunotherapeutic standpoint, it may be preferable in certain settings to induce both the humoral and cell-mediated arms of the immune system to offset the progression of tumor cell growth and dissemination. Namely, these strategies could include active or passive approaches to first effectively induce ADCC in response to a tumor antigen, which would promote CTL activity against additional tumor targets through cross-presentation.Our laboratory has been involved in determining the immunologic mechanisms of tumor immunity induced by the virally encoded tumor-specific antigen simian virus 40 (SV40) large tumor antigen (Tag). The mechanistic aspects of SV40 Tag-induced tumor immunity have been examined within an experimental murine model of pulmonary metastasis. To date, CD4⁺ T cells and SV40 Tag-specific antibody have been implicated as required immune components within this murine system in order to achieve complete systemic tumor immunity (18). These studies demonstrated that during the course of immunization with SV40 Tag (i.e., the induction-phase response), CD4⁺ T cells were required to induce an SV40 Tag humoral response. The specific role of the antibody response against an experimental tumor cell challenge was observed to involve ADCC-mediated clearance pathways (4, 23).In the present study, we further characterize the immunologic response to SV40 Tag immunization by observing the necessary immune cell components following experimental challenge (i.e., the effector-phase response) with a tumor cell line expressing SV40 Tag. With the development of an SV40 Tag antibody response following SV40 Tag immunization in vivo, CD8⁺ T-cell depletion during the effector phase resulted in the formation of lung tumor foci and decreased survival not observed with the abrogation of CD4⁺ T cells. SV40 Tag-immunized mice also displayed a heightened Th1 response and CD8⁺ CTL activity after experimental tumor cell challenge, as assessed by enzyme-linked immunosorbent assay (ELISA) and flow cytometry assays. In all, these data indicate that CD8⁺ T cells mediate tumor immunity following antibody activation in response to the tumor-specific antigen SV40 Tag. We hypothesize that CD8⁺ T-cell activity is initiated due to cross-presentation mechanisms as a result of ADCC activity against SV40 Tag. We are not aware of another published report that formulates a role for ADCC activity against a viral oncoprotein in this manner in order to engage CD8⁺ T-cell activation.SV40 Tag has been reported to be expressed in a number of human cancers, including malignant pleural mesothelioma and non-Hodgkin''s lymphoma, although a causal link between SV40 infection and tumorigenesis is uncertain (11, 24, 35). The results of this study have direct implications for the construction of an appropriate immunotherapeutic strategy for patients suffering malignancies expressing the SV40 Tag tumor-specific antigen.     

CD8+ T-Cells Expressing Interferon Gamma or Perforin Play Antagonistic Roles in Heart Injury in Experimental Trypanosoma Cruzi-Elicited Cardiomyopathy

In Chagas disease, CD8⁺ T-cells are critical for the control of Trypanosoma cruzi during acute infection. Conversely, CD8⁺ T-cell accumulation in the myocardium during chronic infection may cause tissue injury leading to chronic chagasic cardiomyopathy (CCC). Here we explored the role of CD8⁺ T-cells in T. cruzi-elicited heart injury in C57BL/6 mice infected with the Colombian strain. Cardiomyocyte lesion evaluated by creatine kinase-MB isoenzyme activity levels in the serum and electrical abnormalities revealed by electrocardiogram were not associated with the intensity of heart parasitism and myocarditis in the chronic infection. Further, there was no association between heart injury and systemic anti-T. cruzi CD8⁺ T-cell capacity to produce interferon-gamma (IFNγ) and to perform specific cytotoxicity. Heart injury, however, paralleled accumulation of anti-T. cruzi cells in the cardiac tissue. In T. cruzi infection, most of the CD8⁺ T-cells segregated into IFNγ⁺ perforin (Pfn)^neg or IFNγ^negPfn⁺ cell populations. Colonization of the cardiac tissue by anti-T. cruzi CD8⁺Pfn⁺ cells paralleled the worsening of CCC. The adoptive cell transfer to T. cruzi-infected cd8 ^−/− recipients showed that the CD8⁺ cells from infected ifnγ^−/− pfn ^+/+ donors migrate towards the cardiac tissue to a greater extent and caused a more severe cardiomyocyte lesion than CD8⁺ cells from ifnγ ^+/+ pfn ^−/− donors. Moreover, the reconstitution of naïve cd8 ^−/− mice with CD8⁺ cells from naïve ifnγ ^+/+ pfn ^−/− donors ameliorated T. cruzi-elicited heart injury paralleled IFNγ⁺ cells accumulation, whereas reconstitution with CD8⁺ cells from naïve ifnγ ^−/− pfn ^+/+ donors led to an aggravation of the cardiomyocyte lesion, which was associated with the accumulation of Pfn⁺ cells in the cardiac tissue. Our data support a possible antagonist effect of CD8⁺Pfn⁺ and CD8⁺IFNγ⁺ cells during CCC. CD8⁺IFNγ⁺ cells may exert a beneficial role, whereas CD8⁺Pfn⁺ may play a detrimental role in T. cruzi-elicited heart injury.     

Allogeneic differences in the dependence on CD4+ T-cell help for virus-specific CD8+ T-cell differentiation

CD4⁺ T-cell help enables antiviral CD8⁺ T cells to differentiate into fully competent memory cells and sustains CD8⁺ T-cell-mediated immunity during persistent virus infection. We recently reported that mice of C57BL/6 and C3H strains differ in their dependence on CD28 and CD40L costimulation for long-term control of infection by polyoma virus, a persistent mouse pathogen. In this study, we asked whether mice of these inbred strains also vary in their requirement for CD4⁺ T-cell help for generating and maintaining polyoma virus-specific CD8⁺ T cells. CD4⁺ T-cell-depleted C57BL/6 mice mounted a robust antiviral CD8⁺ T-cell response during acute infection, whereas unhelped CD8⁺ T-cell effectors in C3H mice were functionally impaired during acute infection and failed to expand upon antigenic challenge during persistent infection. Using (C57BL/6 × C3H)F₁ mice, we found that the dispensability for CD4⁺ T-cell help for the H-2^b-restricted polyoma virus-specific CD8⁺ T-cell response during acute infection extends to the H-2^k-restricted antiviral CD8⁺ T cells. Our findings demonstrate that dependence on CD4⁺ T-cell help for antiviral CD8⁺ T-cell effector differentiation can vary among allogeneic strains of inbred mice.