Cellular mechanisms involved in protection against influenza virus infection in transgenic mice expressing a TCR receptor specific for class II hemagglutinin peptide in CD4+ and CD8+ T cells

Mice transgenic for a TCR that recognizes peptide110-120 of hemagglutinin of PR8 influenza virus in the context of MHC class II I-Ed molecules express the transgenes in both CD4+ and CD8+ T cells. We have found that these TCR-hemagglutinin (TCR-HA) transgenic mice display a significantly increased resistance to the primary infection with PR8 virus compared with the wild-type mice. The TCR-HA transgenic mice mounted significant MHC type II and enhanced MHC type I-restricted cytotoxicity as well as increased cytokine responses in both spleen and lungs after infection with PR8 virus. In contrast, the primary humoral response against PR8 virus was not significantly different from that of the wild-type mice. In vivo depletion and adoptive cell transfer experiments demonstrated that both CD4+ and CD8+ TCR-HA+ T cell subsets were required for the complete clearance of pulmonary virus following infection with a dose that is 100% lethal in wild-type mice. Whereas CD4+ TCR-HA+ T cells were necessary for effective activation and local recruitment of CD8+ T cells, CD8+ TCR-HA+ T cells showed a Th1-biased pattern and MHC type II-restricted cytotoxicity. However, in the absence of in vivo expression of MHC type I molecules on the infected cells, the protection conferred by the TCR-HA+ T cells was impaired, indicating that the enhanced MHC class I-restricted cytotoxicity due to TCR-HA+ CD4+ Th cells was a critical element for clearance of the pulmonary virus by the transgenic mice.     

Differential activation of CD8+ tumor-specific Tc1 and Tc2 cells by an IL-10-producing murine plasmacytoma

The involvement of counteractive CD8+ T-cell subsets during tumor-specific immune responses was analyzed in a syngeneic murine plasmacytoma model. CD8+ Tc cells against the immunogenic IL-10-producing BALB/c plasmacytoma ADJ-PC-5 can be easily induced by immunization of BALB/c mice with X-irradiated ADJ-PC-5 tumor cells in vivo and in vitro. However, the failure of recipient mice to mount a protective Tc response against the tumor during early stages of a real or simulated tumor growth is not due to immunological ignorance, but depends on the induction of tumor-specific tolerance, involving a population of tumor-induced CD8+ T cells that are able to inhibit the generation of tumor-specific Tc cells in a primary ADJ-PC-5-specific MLTC, using IFN-gamma as a suppressive factor. Whereas most long-term cultivated CD8+ ADJ-PC-5-specific Tc lines produce type-1 cytokines on stimulation, at least two of them, which were derived from a primary MLTC, display a type-2 cytokine spectrum. Furthermore, the primary in vitro Tc response against ADJ-PC-5 cells shows characteristics of a Tc2 response. The Tc response is strictly depending on tumor-derived IL-10. CD8+ Tc cells that are induced in a primary MLTC do not produce IFN-gamma, and the tumor-specific Tc response is enhanced by IL-4 but suppressed by IFN-gamma or IL-12. In contrast, ADJ-PC-5-specific CD8+ Tc cells from immunized mice are IFN-gamma producing Tc1 cells. Since the primary in vitro Tc response against the tumor is suppressed even by the smallest numbers of irradiated ADJ-PC-5-specific Tc1 cells via IFN-gamma, these Tc1 cells behave similar to the suppressive CD8+ T cells that are induced during early stages of ADJ-PC-5 tumorigenesis.     

Immunization with heat-killed Mycobacterium vaccae stimulates CD8+ cytotoxic T cells specific for macrophages infected with Mycobacterium tuberculosis

Immune responses to Mycobacterium tuberculosis are analyzed in mice which have been immunized with Mycobacterium vaccae to examine novel ways of altering protective immunity against M. tuberculosis. The spleen cells of mice immunized with M. vaccae proliferate and secrete gamma interferon (IFN-gamma) in response to challenge with live M. tuberculosis in vitro. Immunization with M. vaccae results in the generation of CD8+ T cells which kill syngeneic macrophages infected with M. tuberculosis. These effector cytotoxic T cells (CTL) are detectable in the spleen at 2 weeks after immunization with M. vaccae but cannot be found in splenocytes 3 to 6 weeks postimmunization. However, M. tuberculosis-specific CTL are revealed following restimulation in vitro with heat-killed M. vaccae or M. tuberculosis, consistent with the activation of memory cells. These CD8+ T cells secrete IFN-gamma and enhance the production of interleukin 12 when cocultured with M. tuberculosis-infected macrophages. It is suggested that CD8+ T cells with a cytokine secretion profile of the Tc1 class may themselves maintain the dominance of a Th1-type cytokine response following immunization with M. vaccae. Heat-killed M. vaccae deserves attention as an alternative to attenuated live mycobacterial vaccines.     

CD8+ T cells control Th2-driven pathology during pulmonary respiratory syncytial virus infection

BALB/c mice vaccinated with vaccinia virus expressing the major surface glycoprotein G of respiratory syncytial virus (RSV) develop lung eosinophilia during RSV challenge. The G protein is remarkable in that it induces CD4+, but no CD8+ T cells in this mouse strain. Studies using passive T cell transfers show that co-injection of CD8+ T cells greatly reduces the Th2-driven lung eosinophilia caused by G-specific CD4+ T cells. By contrast, vaccination with the fusion protein (F) induces both CD8+ and CD4+ T cells, but not lung eosinophilia during RSV infection. These observations suggest that CD8+ T cells play a crucial role in preventing Th2-driven pathology. We therefore depleted mice with anti-CD8 antibodies in vivo. This treatment allowed lung eosinophilia to develop in F-primed mice. Depletion of interferon (IFN)-gamma had a similar effect, suggesting that secretion of this cytokine is the mechanism by which CD8+ T cells exert their effect. To test whether similar effects occurred in other strains of mice, RSV-infected C57BL/6 mice (which do not develop eosinophilia after sensitization to G) were treated with anti-IFN-gamma. Again, these mice developed eosinophilia. In this strain, genetic deletion of CD8-alpha, beta2-microglobulin or genes coding for the transporter associated with antigen presentation (which in each case eliminates CD8+ T cells) caused lung eosinophilia during RSV infection. These studies show the critical roles that CD8+ T cells and IFN-gamma production play in regulating Th2-driven eosinophilia and provide a unifying explanation for previous studies of lung eosinophilia. We propose that vaccines designed to enhance CD8+ T cell recognition might avoid disease caused by CD4+ Th2 cells.     

Differential effects of IL-12 receptor blockade with IL-12 p40 homodimer on the induction of CD4+ and CD8+ IFN-gamma-producing cells

The role of IL-12 role in regulating Th1/Th2 balance is attributed in part to the ability of this cytokine to induce IFNgamma production by NK and Th1 cells, which in turn promotes Th1 and inhibits Th2 development. In the present study, the requirement for IL-12 in the development of alloantigen-reactive Th1 was assessed by adding neutralizing anti-IL-12 Abs or the IL-12 receptor antagonist p40 homodimer to primary MLC. The resulting cell populations were assessed for Th1 development by measuring IFN-gamma production upon restimulation with alloantigens. While the addition of anti-IL-12 Abs to primary MLC did not influence subsequent cytokine production, addition of p40 homodimer markedly enhanced, rather than decreased, Th1 development. To determine which T cell population produced enhanced levels of IFN-gamma in response to p40 homodimer, CD4+ or CD8+ T cells were depleted from the MLC. While p40 homodimer was inhibitory to selected CD4+ Th1 development, it enhanced IFN-gamma production by CD8+ T cells. To test the in vivo relevance of these findings, mouse heterotopic cardiac allograft recipients were treated with either p40 homodimer, anti-CD8 mAb, or with both p40 homodimer and anti-CD8 mAb. Treatment of allograft recipients with p40 homodimer had no effect on the in vivo sensitization of IFN-gamma-producing cells and resulted in accelerated allograft rejection relative to unmodified recipients. However, p40 homodimer markedly prolonged allograft survival in mice depleted of CD8+ T cells. Hence, p40 homodimer stimulates CD8+ Th1 development in vitro but inhibits CD4+ T cell function both in vitro and in vivo.     

Development of an outcomes management program at an academic medical center

Donor CD4+ and CD8+ T cells mediate graft-vs.-leukemia (GVL) responses in the allogeneic bone marrow transplantation (alloBMT) setting. To evaluate the role of functional T cell subsets in the mediation of GVL, alloreactive donor CD4+ (Th1/Th2) and CD8+ (Tc1/Tc2) T cells of defined cytokine phenotype were generated by in vitro culture. A leukemia/transplantation model (B6 into B6C3F1; 1050 cGy host irradiation) was established using the bcr/abl-transfected myeloid leukemia line, 32Dp210 (P210; H-2k). Leukemia control mice (1X10(4) P210 cells per recipient) died at day 12.0 post-BMT. Recipients of the CD4+, Th1-type or CD8+, Tc1-type populations were conferred a survival advantage (death at 20.7 and 23.5 days post-BMT, respectively). In contrast, the CD4+, Th2-type population did not mediate GVL (death at 12.3 days). Furthermore, cell mixing experiments demonstrated that the Th2 subset abrogated both Th1- and Tc1-mediated GVL. The CD8+, Tc2 population, which secreted type II cytokines and lysed the P210 leukemia target in vitro, mediated GVL in some experiments; interestingly, the magnitude of Tc2-mediated GVL was inversely related to the level of interleukin-10 (IL-10) secreted in vitro by the Tc2 population. These studies therefore indicate that alloreactive T cells of type I phenotype maximally generate GVL, and that type I/type II interactions are an important consideration for allogeneic transplantation in the setting of leukemic hosts.     

Migration kinetics and final destination of type 1 and type 2 CD8 effector cells predict protection against pulmonary virus infection

The requirements for CD8 T cells to provide protection against a localized virus infection in models of adoptive immunotherapy are not well defined. Here we investigated the protective value of defined in vitro-generated hemagglutinin (HA) peptide-specific primary CD8 T cell effectors from the clone 4 T cell receptor transgenic mice, secreting type 1 or type 2 cytokines, against pulmonary infection with whole influenza virus. Cytotoxic T lymphocytes producing type 1 and type 2 cytokine (Tc1 and Tc2) populations were equally cytolytic, but Tc1 effectors and not Tc2 effectors reduced the pulmonary virus titer early during infection. Host recovery mediated by Tc1 effectors was found to be independent of interferon gamma production. Tc2 effectors entered the lung with delayed kinetics as compared with Tc1 effectors, and after lung entry Tc2 effector cells did not localize near the infected airway epithelium as did Tc1 effectors but were found within clusters of inflammatory cells distant from the epithelium. We also show that the expression of several chemokine receptors was selectively regulated in the Tc1 and Tc2 subsets. Thus, the protective value of a CD8 cell population against pulmonary influenza virus infection is strongly correlated with its ability to exert its effector potential at the site of virus infection.     

Rapamycin inhibits the generation of graft-versus-host disease- and graft-versus-leukemia-causing T cells by interfering with the production of Th1 or Th1 cytotoxic cytokines

Rapamycin (RAPA), an inhibitor of cytokine responses, is under investigation in humans for graft-vs-host disease (GVHD) prevention. The mechanisms responsible for GVHD prevention are unknown. We show that RAPA is more effective in inhibiting CD8+ or TCR gammadelta+ than CD4+ T cell-mediated murine GVHD. To determine how RAPA inhibited GVHD, thoracic duct lymphocytes (TDL) were isolated from recipients of allogeneic donor grafts. Compared with controls, RAPA-treated recipients had a marked decrease in donor TDL T cell number between days 5 and 24 posttransplant. CD8+ T cell expansion was preferentially inhibited. RAPA inhibited Th1 or Th1 cytotoxic (Tc1) cytokines, but not Th2 or Tc2, cell generation. In situ mRNA hybridization also showed that TDL T cells from RAPA-treated mice had a lower frequency of granzyme B+ cells, indicating that RAPA inhibited the generation of CTL capable of mediating cytolysis through the release of granzyme B. In another system, RAPA was found to inhibit the GVL response of delayed donor lymphocyte infusions. Since CD8+ T cells are the primary effectors in this system, these data suggest that RAPA directly interfered with GVL effector cell expansion or function. We conclude that RAPA is effective in inhibiting Th1 or Tc1 cytokine production and CD8+ and TCRgammadelta+ T cell-mediated GVHD, but abrogates GVL.     

Maturation of human neonatal CD4+ and CD8+ T lymphocytes into Th1/Th2 effectors

The increased susceptibility of neonates to infections has been ascribed to the immaturity of their immune system. More particularly, T cell-dependent responses were shown to be biased towards a Th2 phenotype. Our studies on the in vitro maturation of umbilical cord blood T cells suggest that the Th2 bias of neonatal response cannot be simply ascribed to intrinsic properties of neonatal T cells. Phenotypically, neonatal CD4+ T cells are more immature than their adult CD45RO-/RA+ naive counterparts and they contain a subset (10-20%) of CD45RO-/RA+ CD31- cells which is very low in adults and displays some unique functional features. The activation and maturation of neonatal CD4+ T cells is particularly dependent upon the strength of CD28-mediated cosignal which dictates not only the cytokine profile released upon primary activation but also the response to IL-12. Activation of adult as well as neonatal CD4+ T cells in the context of low CD28 costimulation yields to the production of low levels of only one cytokine, i.e. IL-2. In contrast, strong CD28 costimulation supports the production of high levels of type 1 (IL-2, IFN gamma and TNF beta) and low levels of type 2 (IL-4 and IL-13) cytokines by neonatal T cells. The low levels of naive T cell-derived IL-4 are sufficient to support their development into high IL-4/IL-5 producers by an autocrine pathway. The ability of IL-12 to prime neonatal CD4+ T cells for increased production of IL-4 (in addition to IFN gamma) is observed only when CD28 cosignal is minimal. Under optimal activation conditions (i.e. with anti-CD3/B7.1 or allogenic dendritic cells) the response and the maturation of neonatal and adult naive T cells are similar. Thus the Th2 bias of neonatal immune response cannot be simply ascribed to obvious intrinsic T cell defect but rather to particular conditions of Ag presentation at priming. Unlike CD4+ T cells, neonatal CD8+ T cells strictly require exogenous IL-4 to develop into IL-4/IL-5 producers. Most importantly, anti-CD3/B7-activated neonatal CD8 T cells coexpress CD4 as well as CCR5 and CXCR4 and are susceptible to HIV-1 infection in vitro.     

IL-15 augments CD8+ T cell-mediated immunity against Toxoplasma gondii infection in mice

Cytokines of the Th1 profile are important mediators of protective host immunity against Toxoplasma gondii infection in mice. In this study we describe the effect of the recently identified cytokine, IL-15, on prevention of murine infection with T. gondii. Administration of exogenous rIL-15 with soluble Toxoplasma lysate Ag (TLA) provides complete protection against a lethal parasite challenge, whereas treatment with either rIL-15 or TLA alone is not protective. Following immunization with TLA/rIL-15, there is a significant proliferation of splenocytes expressing the CD8+ phenotype in response to TLA. A significant rise in the level of serum IFN gamma was observed in vaccinated mice. Adoptive transfer of CD8+ T cells, but not CD4+ T cells, from TLA/rIL-15-vaccinated mice protects naive mice from a lethal parasite challenge. These CD8+ T cells exhibit enhanced CTL activity against target macrophages infected with T. gondii. Mice that have been immunized are protected against lethal parasite challenge for at least 1 mo postvaccination. These observations demonstrate that TLA when administered with exogenous rIL-15 generates toxoplasmacidal Ag-specific CD8+ T cells. These T cells proliferate upon exposure to parasite Ag, exhibit long term memory CTL against infected target cells, and may be involved in host immune memory to this parasite.     

Allospecific CD8+ Tc1 and Tc2 populations in graft-versus-leukemia effect and graft-versus-host disease

Allogeneic CD8+ T cells mediate both a graft-vs-leukemia (GVL) effect and graft-vs-host disease (GVHD). To evaluate whether CD8 cells of defined cytokine phenotype differentially mediate these processes, alloreactive donor CD8+ T cells preferentially secreting type I or type II cytokines were generated by alloantigenic priming in vitro in the presence of IL-12 or IL-4, respectively. Both cytokine-secreting subsets lysed allogeneic tumor targets in vitro ("Tc1" and "Tc2" subsets). A transplantation model was established (B6 into B6C3F1, 1050 cGy host irradiation) using the 32Dp210 myeloid line (bcr/abl transfected, H-2k; 1 x 10(4) tumor cells/recipient). Compared with leukemia controls (death at 12.9 days post-bone marrow transplantation), both Tc1 and Tc2 recipients were conferred a survival advantage. At cell doses of 2 to 2.5 x 10(7), the Tc1-mediated GVL effect (mean survival of 34.2 days) was more potent than the Tc2-mediated GVL effect (mean survival of 20.5 days; Tc1 > Tc2, p = 0.009). On day 15, histologic examination showed that Tc1 recipients had undetectable tumor burdens, whereas Tc2 recipients had extensive leukemic infiltrates. However, Tc2 recipients had essentially no histologic evidence of GVHD, whereas Tc1 recipients had mild to moderate GVHD (average GVHD scores of 1/40 and 9.3/40, respectively). In contrast, recipients of uncultured CD8+ donor T cells developed severe GVHD (average GVHD score of 26.7/40). Because in vitro-generated, alloreactive Tc1 and Tc2 populations mediated GVL with reduced GVHD, we conclude that both subsets may improve the therapeutic outcome of allogeneic T cell transfers in patients with leukemia.     

Correlates of apoptosis of CD4+ and CD8+ T cells in tonsillar tissue in HIV type 1 infection

The immunopathogenesis of human immunodeficiency virus type 1 (HIV-1) infection has been associated with increased death by apoptosis of T cell subsets. In the present study, we have examined correlates of apoptosis of CD4+, CD8S+CD28+, and CD8+CD28- T cells in tonsillar lymphoid tissue in persons with HIV-1. Single-cell suspensions of tonsillar lymphocytes were analyzed by flow cytometry to determine the fraction of cells showing typical characteristics of apoptosis as well as the expression of activation markers within the live and the apoptotic cell populations. The proportion of cells carrying infectious provirus was quantified by limiting dilution analysis. Compared with uninfected controls, apoptosis of both CD4+ and CD8+ T cells was enhanced in HIV-1 infection and was higher among CD8+ than among CD4+ T cells. Apoptosis of CD28-cells was more prevalent than apoptosis of CD28+ cells for both CD4+ and CD8+ T cells. Occurrence of apoptosis of CD4+ T cells correlated with provirus levels and proportional expression of the activation marker HLA-DR. Apoptosis of CD8+CD28+ cells correlated with expression of the activation markers CD69 and HLA-DR while apoptosis within CD8+CD28- cells did not correlate with any of the studied parameters. Although apoptosis was much more prevalent among CD8+ than CD4+ T cells, CD8+ T cells still accumulated in tonsillar lymphoid tissue in persons with HIV-1. Our data may be interpreted to suggest that apoptosis of CD4+, CD8+CD28+, and CD8+CD28- cells in tonsillar tissue is regulated by different mechanisms and the results are of importance to our understanding of the immunopathogenesis of HIV-1 infection.     

Demonstration of the Th1 to Th2 cytokine shift during the course of HIV-1 infection using cytoplasmic cytokine detection on single cell level by flow cytometry

OBJECTIVE: To characterize changes of Th1/Th2 cytokine production by peripheral blood mononuclear cells (PBMC) that occur during the course of HIV infection by cytoplasmic cytokine staining on single cell level. DESIGN AND METHODS: Mitogen-stimulated PBMC from 16 healthy donors, 18 HIV-1-infected individuals without AIDS and 14 patients with AIDS were stained intracellularly with fluorescein-labelled MAb against interleukin (IL)-2, IL-4, IL-10 and interferon (IFN)-gamma. Additionally, co-staining of CD4+ T-cell, CD8+ T-cell, natural killer (NK) cell, B-cell and monocytic markers was performed. Fluorescence staining was analysed by three-colour flow-cytometry. RESULTS: A reduced percentage of IL-2 and IFN-gamma (Th1 type)-producing cells among CD4+ T cells from HIV-1-infected individuals could be demonstrated. There was a continuous decrease of IFN-gamma-producing CD4+ T cells in the course of HIV infection and a dramatic reduction of IL-2-expressing cells among CD4+ T cells in patients with AIDS. In contrast to Th1 cytokines, the frequency of Th2 cytokine expressing cells among CD4+ T cells increased in HIV-infected individuals. The maximum frequency of IL-4-expressing cells among CD4+ T cells was seen in HIV-infected individuals without AIDS, whereas the rate of IL-10-producing cells was highest in patients with AIDS. In HIV-infected individuals no significant proportion of Th0 cells expressing both Th1 and Th2 cytokines was detectable. In CD8+ T cells the percentage of IL-2 was expressing cells decreased continuously accompanied by a strong increase of the frequency of IFN-gamma-producing cells. CONCLUSION: The decreased percentage of cells expressing IL-2 and IFN-gamma in conjunction with an increased proportion of IL-4- and IL-10-producing cells among the CD4+ T cells in HIV-1-infected individuals demonstrate a Th1 to Th2 cytokine shift in the course of HIV infection on a single cell level. There was no evidence of a Th1 to Th0 cytokine shift. In addition to the loss of CD4+ T cells in HIV infection, the qualitative changes of Th1/Th2 cytokine expression may serve as a marker for progressive failure of cell-mediated immunity.     

MHC class I-selected CD4-CD8-TCR-alpha beta+ T cells are a potential source of IL-4 during primary immune response

Differentiation of naive CD4+ lymphocytes into either Th1 or Th2 cells is influenced by the cytokine present during initial Ag priming. IL-4 is the critical element in the induction of Th2 response; however, its origin during a primary immune response is not well defined. In the present study, we characterized a novel potential source of IL-4, the class I-selected CD4-CD8-TCR-alpha beta+ T cells. In a first set of experiments, we demonstrated that CD4-CD8-TCR-alpha beta+ thymocytes produce a large amount of IL-4 after in vitro anti-CD3 stimulation. This phenomenon was not observed in class I-deficient mice, demonstrating that among these cells, the class I-selected subset was predominantly responsible for IL-4 production. Further studies focused on the in vivo IL-4-producing capacity of peripheral CD4-CD8-TCR-alpha beta+ T cells. To this end, a single injection of anti-CD3 mAb, which promptly induces IL-4 mRNA expression, was used. Peripheral CD4-CD8-TCR-alpha beta+ T cells express high levels of IL-4 mRNA in response to in vivo anti-CD3 challenge. Furthermore, analysis performed in mice lacking MHC class I or class II molecules demonstrates that both the class I-selected subset of CD4-CD8-TCR+ and CD4+ peripheral T lymphocytes are the major IL-4 producers after in vivo anti-CD3 stimulation. These findings suggest that class I-selected CD4-CD8-TCR-alpha beta+ and CD4+ T cell populations are important sources of IL-4 probably implicated in the development of specific Th2 immune responses.     

Cytokine profiles of lesional and splenic T cells in Porphyromonas gingivalis infection in a murine model

T cell cytokine profiles in the spleens and Porphyromonas gingivalis-induced lesions of P. gingivalis-immunized mice were examined. BALB/c mice were immunized with P. gingivalis outer membrane (OM) antigens/mouse weekly for 3 weeks followed by challenge with live organisms 2 weeks after the final immunization. Control mice were immunized with PBS. Spleens were excised at 0 and 4 days and lesions at 1, 4, and 7 days after challenge. Splenic and lesional CD4 and CD8 cells were stained for intracytoplasmic interleukin (IL)-4, interferon (IFN)-gamma, and IL-10. More than 50% of the T cells in the spleens of immunized mice were IFN-gamma positive at day 0 which was significantly higher than for IL-4 or IL-10, these levels decreasing significantly 4 days after challenge. Less than 6% of the T cells in sham immunized mice were cytokine positive at day 0, although at day 4, there was a significant increase in the percent IL-10 positive CD4 cells and IL-4 and IL-10 positive CD8 cells. There were no differences in the percent IL-4, IFN-gamma, or IL-10 positive T cells in the lesions of immunized mice, but there was a dramatic decrease at day 7 to very low levels in control mice. In conclusion, the results of the present study show a predominant Th1 response in the spleens of BALB/c mice after immunization with P. gingivalis OM antigens, suggesting that a protective immune response to P. gingivalis may involve a strong IFN-gamma response.     

Phosphorylation and activation of cGMP-dependent protein kinase by Src

Naive CD8 T cells can be polarized into effectors producing the type 1 cytokines IFN-gamma and IL-2 or the type 2 cytokines IL-4, IL-5, and IL-10, respectively. To study whether the polarized cytokine phenotype of the effectors is stable, we generated highly cytotoxic hemagglutinin (HA) peptide-specific CD8 Tc1 and Tc2 (cytotoxic CD8 T cells producing type 1 or type 2 cytokines) effectors from Clone-4 TCR-transgenic mice, which were adoptively transferred into syngeneic adult thymectomized irradiated and bone marrow-reconstituted recipients. The highly activated blast-size, CD25+ Tc1 and Tc2 effectors gave rise to homogeneous resting CD25- CD44(high) Ly6C(high) Ag-specific populations, which persisted for at least 13 wk after adoptive transfer. These memory CD8 T cells, recovered 13 wk after transfer of Tc1 or Tc2 effectors, still produced either the type 1 or type 2 cytokines, i.e., IFN-gamma, or IL-4 and IL-5, respectively, upon restimulation with APCs loaded with the HA peptide, but not in the absence of Ag. The amounts of IL-2 detected in the supernatants of Tc1 and Tc2 memory populations were comparable to that in memory CD4 cells, and both Tc1 and Tc2 memory cells became cytotoxic upon restimulation. Thus, cytokine-polarized CD8 memory T cells are a source of a variety of cytokines, which were classically considered helper cytokines, opening new perspectives on their function as regulatory cells in an immune response.     

T-lymphocyte downregulation after acute viral infection is not dependent on CD95 (Fas) receptor-ligand interactions

Infection of mice with lymphocytic choriomeningitis virus (LCMV) causes a major expansion of CD8+ T cells followed by a period of immune downregulation that coincides with the induction of lymphocyte apoptosis in the mouse spleen. CD95 (Fas) and its ligand are important for regulating peripheral T-lymphocyte numbers and can mediate apoptosis of mature T lymphocytes. We infected CD95- and CD95L-deficient mice (lpr and gld, respectively) with LCMV to determine if the immune downregulation that occurred following resolution of the LCMV infection was due to a CD95-dependent apoptotic mechanism. Lymphocytes from LCMV-infected lpr and gld mice were capable of normal T-cell expansion and cytolytic function but were, in contrast to activated cells from normal virus-infected mice, relatively more resistant to T-cell receptor-induced apoptosis in vitro. However, in vivo there were significant numbers of apoptotic cells in the spleens of lpr and gld mice recovering from the infection, and the T-cell number and cytolytic activity decreased to normal postinfection levels. Thus, CD95 is not required for the immune downregulation of the CD8+-T-lymphocyte response following acute LCMV infection.     

Association of CD4+ T cell-dependent keratitis with genetic susceptibility to Pseudomonas aeruginosa ocular infection

The role of T lymphocytes in susceptibility to Pseudomonas aeruginosa corneal infection was studied in inbred C57Bl/6 (B6) beta2-microglobulin+/+ (beta2m+/+) and beta2m-/- knockout (KO) mice on a B6 genetic background. The corneas of both B6 and KO mice perforated by 7 days postinfection (p.i.). Histopathology revealed a similar inflammatory response characterized by an infiltration of polymorphonuclear neutrophilic leukocytes by 24 h p.i. in both groups of mice. CD4+ and CD8+ (latter absent in KO) T cells were present in cornea by 3 days p.i., and by 5 days, IL-2R-positive cells were positively immunostained. Corneas of B6 beta2m+/+ mice depleted of CD4+ T cells and infected with P. aeruginosa did not perforate at 7 days p.i. vs mice depleted of CD8+ T cells or treated with an irrelevant mAb. Neutralization of IFN-gamma before infecting B6 mice prevented corneal perforation and was associated with a lower delayed-type hypersensitivity than in B6 mice similarly treated with an irrelevant mAb. These data provide evidence that a CD4+ T cell (Th1)-dominated response following P. aeruginosa corneal infection is associated with genetic susceptibility and corneal perforation in inbred B6 mice.     

Xenospecific CD8+ cytotoxic T lymphocyte generation: accessory function for CD4+ T cells and natural killer 1.1+ cells

BACKGROUND: Controversy exists as to whether natural killer (NK)1.1+ cells additionally support cytotoxic T lymphocyte (CTL) generation. We have previously demonstrated that mice generate a strong in vitro xenospecific CTL response in local popliteal lymph nodes (LN) to footpad immunizations with large numbers of human tumor cells. METHODS: In vivo depletion of various LN subsets using cytotoxic monoclonal antibodies was used to determine their relative importance in stimulating xenospecific CD8+ CTL responses to human Jurkat tumor cells. Depletion of functional NK cells in vivo was evidenced by the relative lack of NK1.1+ cells and NK activity in the spleens and LN of anti-NK1.1 monoclonal antibody-treated mice. CONCLUSION: Depletion of LN subsets indicated that CD4+ T cells were critical in generating an effective xenospecific CD8+ CTL response, but also suggested that NK1.1+ cells play a significant additional accessory role in the development of mouse anti-human xenospecific CTL.