Induction of self-reactive T cells after murine coronavirus infection.

We studied the mechanism of in vitro spontaneous lymphokine production by spleen cells from mice injected intraperitoneally with murine coronavirus stain JHM 1 month after infection, when infectious virus had already been cleared from the spleens. Removal of either CD4+ T cells or Ia+ antigen-presenting cells (APC) from the spleen cells abrogated interleukin-2 (IL-2) production. Addition of anti-CD4 or anti-Iad monoclonal antibodies to the culture suppressed IL-2 production. These results suggest that the response involved typical receptor-mediated activation of T cells. Surprisingly, reciprocal mixing experiments with a coculture of T cells from infected mice and APC from either infected or naive mice resulted in the production of IL-2. The absence of viral antigens in spleen cells 1 month after infection, as indicated by their inability to induce the proliferation of T-cell clones specific for the viral antigens, suggest that the T cells from mice 1 month after infection were not responding to the viral antigens. The inoculum components other than the virus did not induce this immune response. We also found that the frequency of self-reactive but not alloreactive IL-2-producing T cells in the spleens of infected mice was 3- to 10-fold higher than that in naive mice. These findings suggest that an increased frequency of self-reactive T cells which secrete IL-2 occurs following murine coronavirus infection. This may have important implications in the development of autoimmunelike phenomena following murine coronavirus infection.     

Antiviral immune responses of fully allogeneic irradiation bone marrow mouse chimeras

In (B10.BR----B10) chimeras infected with lymphocytic choriomeningitis (LCM) virus higher titers were attained in spleens and livers than in organs of the mice used for their construction, and the subsequent elimination was retarded, but eventually the virus was cleared. The numbers of LCM virus-specific CTL and their precursors as quantitated with chromium-release assay and limiting dilution method, respectively, were lower in chimeras than in B10.BR or C57BL/10J mice, and fewer were restricted for the haplotypes of the donors than of the recipients. The same was true with regard to antiviral effector cells, which were determined by adoptive immunization. The numbers of spleen cells releasing IgM and IgG antiviral antibodies were virtually as high in chimeras as they were in C57BL/10J and B10.BR mice. Transfer of immune splenocytes from either B10.BR or C57BL/10J mice resulted in incomplete virus elimination from the spleens of infected chimeras, whereas injection of a mixture of the two types of immune cells led to efficient clearance. We conclude that in the chimeras cells of both donor and recipient haplotypes participate in the infection, which is terminated by H-2k- and H-2b-restricted T lymphocytes that these animals are capable of generating. We conclude, furthermore, that clearance of the LCM virus from the tissues requires contact between effector and target cells.     

Mechanism of recovery from acute virus infection. I. Role of T lymphocytes in the clearance of lymphocytic choriomeningitis virus from spleens of mice

Adult mice were infected by i.v. inoculation with 10(3) mouse infectious doses of lymphocytic choriomeningitis virus (LCM virus). Despite widespread replication of the agent, overt illness did not develop; histopathologic alterations were moderate. High virus concentrations were attained in the spleen, which was chosen for further study. Cytotoxic spleen T cell responses were found to vary among inbred mouse strains, and as a rule, these were correlated with other virus-specific cell-mediated immune phenomena. However, high- and low-responder mice eliminated the virus equally fast and already at times when spleen cytotoxic T lymphocytes were just beginning to appear (and before delayed-type hypersensitivity could be demonstrated). Adoptive transfer experiments showed that very few immune T lymphocytes were capable of reducing virus replication in the recipients' spleens and, furthermore, that protection was rapidly induced; when low numbers of cells were transferred, the effect was apparent 8 hr later, and with higher numbers diminished virus replication was evident after an interval as short as 6 hr. In fact, the data suggest that virus was actually inactivated. In spite of this marked efficiency, morphologic alterations in spleens of adoptively immunized mice were absent. Attempts to reveal expansion of immune cells in the recipients have failed, and the observation that adoptive transfer was as efficient in nude mice as in their furred counterparts makes it unlikely that the recipients' T lymphocytes participated to any extent. The low number of T lymphocytes causing reduction of virus, the short interval after which the effect became measurable, and the lack of histopathologic alterations has led to a working hypothesis in which it is assumed that immunologically activated T lymphocytes secrete lymphokines that directly interfere with virus replication in neighboring cells.     

Delayed clearance of filarial infection and enhanced Th1 immunity due to modulation of macrophage APC functions in xid mice.

Bruton's tyrosine kinase (Btk) mutant CBA/N mice show delayed clearance of injected microfilaria (mf) compared with wild-type CBA/J mice. Anti-mf T cells from CBA/N mice make relatively more IFN-gamma than those from CBA/J mice. The anti-mf T cell proliferative responses are also greater in CBA/N mice. This CBA/N immune phenotype is not restricted to filarial Ags, because immunization with pure proteins also yields T cell responses of greater proliferative magnitude skewed away from Th2 cytokines in CBA/N compared with CBA/J mice. The increased magnitude of CBA/N T cell proliferative responses is reflected in increases in both precursor frequencies and clonal burst sizes of responding Ag-specific T cells, and is independent of the source of re-stimulating APCs. Transfer of CBA/J peritoneal resident cells (PRCs) into CBA/N mice before pure protein immunization leads to a wild-type immune phenotype in the recipient CBA/N mice, with a reduction in the proliferative response and a relative decrease in the IFN-gamma produced. When wild-type PRC subpopulations are similarly transferred, the wild-type immune phenotype is transferred by macrophages rather than by B cells. Transfer of wild-type PRCs into CBA/N mice before injection of mf also causes similar changes in the anti-mf T cell responses and enhances the clearance of mf. Thus, Btk is involved in critical macrophage APC functions regulating priming of T cells, and can modulate these responses in pathophysiologically relevant fashion in vivo.     

Clearance of a persistent paramyxovirus infection is mediated by cellular immune responses but not by serum-neutralizing antibody.

Infection of the lungs of immunodeficient mice with the paramyxovirus simian virus 5 (SV5) was prolonged compared with the time course of infection in immunocompetent mice. Although there was a significant increase in both viral RNA and proteins, little infectious virus was produced. Adoptive transfer of immune lymphocytes (isolated from the spleens of mice previously infected with SV5) but not of nonimmune lymphocytes increased the speed of clearance of virus from the lungs of immunodeficient mice. In contrast, passive transfer of a pool of neutralizing monoclonal antibodies specific for the HN and F glycoproteins of SV5 did not have a significant effect on the speed of clearance of virus. Furthermore, no significant increase in the rate of virus clearance was observed upon adoptive transfer of purified immune B lymphocytes to SV5-infected immunodeficient mice despite production by the mice of high titers of neutralizing antibodies. Evidence is presented that CD8+ effector cells are primarily responsible for the clearance observed. The general significance of these results with respect to immune clearance of persistent virus infections is discussed.     

Pathogenesis of street rabies virus infections in resistant and susceptible strains of mice.

Seven strains of mice were examined to determine why susceptibility differences and variations in clinical central nervous system (CNS) disease occurred among these animals after intraperitoneal inoculation of street rabies virus (SRV). Trace experiments for infectious virus indicated that these differences were associated with restriction of virus replication within the CNS. Limitation of viral replication appeared to correlate with the antibody response in that prominent serum anti-SRV neutralizing antibody titers were detected in resistant strains, whereas susceptible strains produced minimal amounts of antibody until their death. The importance of the immune response was reaffirmed with cyclophosphamide studies in that all resistant SJL/J mice died after immunosuppressive treatment. In contrast, cyclophosphamide-treated SJL/J mice whose immune systems were reconstituted with either unfractionated immune spleen cells or with sera 24 h after SRV inoculation survived a lethal dose of SRV. More importantly, immunosuppressed SJL/J and immunodeficient athymic mice were protected when reconstituted with immune serum 72 h after SRV inoculation, a time in which infectious virus was detected in the spinal cords of some mice but was not present in the peritoneal cavity. Additional studies showed that antibody in the cerebrospinal fluid was unimportant in the resistance of mouse strains which remained clinically asymptomatic, but it appeared to be associated with the survival of mice which developed clinical CNS disease. Furthermore, CNS resistance to intranasal or intracerebral inoculation with challenge virus standard rabies virus developed as early as 5 days post-intraperitoneal inoculation of SRV.     

Persistence of infectious Friend virus in spleens of mice after spontaneous recovery from virus-induced erythroleukemia.

Persistent infectious virus was detected in the majority of spleens of (C57BL/10 X A.BY)F1 mice after spontaneous recovery from Friend virus-induced erythroleukeima. The Friend murine leukemia helper virus (F-MuLV) was detected in titers up to 3 X 10(5) PFU/g of spleen. The defective spleen focus-forming virus (SFFV) was present in much lower titers and could be detected in cell-free spleen homogenates only after amplification of virus titer by growth of virus in vitro on SC1 cells. The incidence of cells producing F-MuLV alone in spleens after recovery from leukemia was 0.003 to 0.3%, and the incidence of cells producing both F-MuLV and SFFV was less than 0.0001 to 0.01%. In most recovered mouse spleens there appeared to be a selective reduction of SFFV relative to F-MuLV.     

Mechanism of recovery from acute virus infection: treatment of lymphocytic choriomeningitis virus-infected mice with monoclonal antibodies reveals that Lyt-2+ T lymphocytes mediate clearance of virus and regulate the antiviral antibody response.

After intravenous infection of mice, lymphocytic choriomeningitis virus multiplied in spleens and livers, attaining highest concentrations on days 4 to 6. The subsequent clearance was as rapid, and 8 to 10 days after inoculation, infectivity was usually below detectability. During the effector phase of virus elimination, both cytotoxic T-cell (CTL) activity and the number of cells producing antiviral antibodies were high. Monoclonal antibodies directed against T lymphocytes and T-lymphocyte subsets were inoculated once intravenously 5, 6, or 7 days after infection of the animals, and the effects on antiviral immune responses, as well as on elimination of virus from the organs, were determined. Treatment with anti-Thy-1 and anti-Lyt-2 antibodies blocked elimination of the virus and profoundly diminished the activity of spleen CTLs but reduced the antibody response partially (anti-Thy-1) or increased it (anti-Lyt-2). In contrast, treatment with the anti-L3T4 antibody had essentially no effect on either virus elimination or CTL response but abolished antibody production. We conclude that Lyt-2+ (cytotoxic-suppressive) T lymphocytes are needed for elimination of the virus and also regulate the humoral response but that antiviral antibodies are not essential for control of the infection.     

Role of the humoral immune response in resistance to Theiler''s virus infection.

Theiler's virus, a murine picornavirus, persists in the central nervous system of susceptible strains of mice, causing chronic inflammation and demyelination in the white matter of the spinal cord. Resistant strains, however, clear the virus and do not develop late disease. In this study, we compared the characteristics of T and B lymphocytes in C57BL/6 (resistant) and SJL/J (susceptible) mice 1 week after intracerebral infection. We detected a marked increase of the number of immunoglobulin M (IgM)-secreting cells in the spleens of C57BL/6 detected a marked increase of the number of immunoglobulin M (IgM)-secreting cells in the spleens of C57BL/6 mice (but not in those of SJL/J mice), which correlated with higher levels of serum IgM antiviral antibodies. The role of the humoral response in virus clearance and resistance was demonstrated by a marked decrease in the number of infected spinal cord cells in SJL/J mice after passive transfer of serum from infected C57BL/6 donors. The B-cell response was found to be partly T cell independent. These results suggest an important role of the early humoral immune response in resistance to Theiler's virus-induced disease.     

A vaccine based on exosomes secreted by a dendritic cell line confers protection against T. gondii infection in syngeneic and allogeneic mice

Our results show that exosomes secreted by SRDC pulsed in vitro with Toxoplasma gondii-derived antigens (Exo-TAg) induced protective responses against infection with the parasite in both syngeneic and allogeneic mice. After oral infection, syngeneic CBA/J mice exhibited significantly fewer cysts in their brains and allogeneic C57BL/6 mice survived. This protection was associated with strong humoral responses in vivo in serum from both CBA/J and C57BL/6 mice, and with high levels of anti-TAg IgA antibodies in intestinal secretions from CBA/J mice alone. Furthermore, strong cellular responses in vivo were observed in both mouse models. Cellular proliferation was associated with cytokines production by spleen and mesenteric lymph node cells. The results presented here show that exosomes are nucleic acid free vesicles that are able to induce immune responses correlated with protection against parasitic infections in both syngeneic and allogeneic mice. They could constitute an efficient tool for use in vaccination and antitumor strategies based on exosomes.     

Cell-mediated immunity to vesicular stomatitis virus infections in mice.

The T cell-mediated immune responses of mice against vesicular stomatitis virus (VSV) were assessed by measuring direct primary foot pad swelling after local VSV infection and cytotoxic activity in spleens. The cytolytic activity was mediated by T cells since it was anti-theta + complement sensitive, was restricted by the K and D region but not the I region of H-2 and rapidly increased after 4 days but decreased 8 days after systemic or local infection. Cytolytic activity was virus-specific as reciprocally tested with VSV and vaccina virus immune T cells. Measurable activity on day 7 depended on infectious virus dose, virus virulence, and non-H-2 genetic background of the host. More than half of the cytolytic activity wasblocked specifically by either immune anti-H2 or rabbit anti-VSV antisera. Analysis of the kinetics of appearance of antigenic changes using metabolic inhibitors, revealed that the changes that rendered target cells susceptible to lysis after infection, occurred within the first hour after infection.     

Biology of cloned cytotoxic T lymphocytes specific for lymphocytic choriomeningitis virus: clearance of virus in vivo.

Our data show that 1 X 10(7) to 1.5 X 10(7) lymphocytic choriomeningitis virus-specific, H-2-restricted cloned cytotoxic T lymphocytes (CTL) administered intravenously into acutely infected mice totally cleared virus from the spleens (10(4) to 10(5) PFU per spleen reduced to less than 50 PFU per spleen) by 24 h. This activity was genetically restricted in that cloned CTL could reduce titers of infectious virus in syngeneic C57BL/6 mice but not allogeneic BALB/c mice. Dose-response analysis indicated that at least 3 X 10(6) to 5 X 10(6) cloned CTL injected intravenously were needed to reduce significant amounts of infectious virus in the spleens. No infectious virus could be recovered from the spleens for at least 4 days after injection of cloned CTL. Hence, CTL play a major role in elimination of infectious virus from spleens during lymphocytic choriomeningitis virus infection. Our results also indicate that cloned CTL propagated in vitro for long periods of time can mediate a biologically relevant effect in vivo. These cells should be of considerable value in defining the precise manner in which CTL bring about control of viral infection, analyzing lymphocyte trafficking, and the potential use of cloned CTL in immunotherapy against viral disease.     

Modulation by gamma interferon of antiviral cell-mediated immune responses in vivo.

Mice were infected with lymphocytic choriomeningitis virus and injected once 24 h later with a monoclonal antibody directed against gamma interferon. In comparison with controls, the increase of numbers of CD8+ T cells and the generation of virus-specific cytotoxic T lymphocytes in spleens and virus clearance from organs were diminished, as was the ability of spleen cells to transmit adoptive immunity to infected recipients. The same treatment slightly but consistently lessened rather than augmented the virus titers early in infection, which was also observed in thymusless nu/nu mice. Injection into infected mice of the lymphokine itself in quantities probably higher than are produced endogenously resulted in lower virus titers in spleens but higher titers in livers. The adoptive immunity in infected mice achieved by infusion of immune spleen cells was not altered by treating the recipients with gamma interferon monoclonal antibody. Such treatment did not measurably affect the production of antiviral serum antibodies. We conclude that in lymphocytic choriomeningitis virus-infected mice, gamma interferon is needed for the generation of antivirally active CD8+ T lymphocytes, and furthermore that in this experimental model, direct antiviral effects of the lymphokine elude detection.     

Splenic microenvironment of the CBA/N mouse: immunohistochemical analysis using monoclonal antibodies against lymphocytes and nonlymphoid cells

CBA/N mice carry an X-linked immune-deficiency gene, leading to a defect in the ability to form antibodies against T-independent type 2 antigens. By using immunohistochemistry, the organization of the spleen of the immune-deficient male (xid) CBA/N F1 and the normal female F1 were compared. Staining with antilymphocyte markers showed that the total number of cells in the various T- and B-cell areas was smaller in the xid mouse, resulting in very small white pulp compartments. Fewer B cells were seen in the marginal zone. When the spleens of the F1 mice were examined for macrophage markers, the rings of marginal-zone macrophages and the ring of marginal metallophilic macrophages were much thinner in the xid mouse. In particular, the marginal-zone macrophages are thought to play a role in the response against thymus-independent type 2 antigens, and their small numbers in the xid mouse are suggestive of a role for the microenvironment in the defects in these mice.     

Effects of a low-pathogen environment on natural killer cells of normal and B lymphocyte-deficient mice.

The effect of short-term exposure (1 month) to a low-pathogen environment (LPE) on NK cell levels in the bone marrow and spleen of immunologically normal CBA/CaJ and B-lymphocyte-deficient CBA/N mice was assessed using both functional (51Cr release) and histological methods. The total NK activity (TNKA), i.e. the percentage specific lysis corrected for changes in whole organ cellularity, of the spleens of LPE-exposed CBA/CaJ mice was not significantly different from that of conventionally reared control mice of that strain (112%), while TNKA of the bone marrow of LPE-exposed mice fell to 27% of that of the bone marrow of conventionally reared controls. TNKA of the spleen and bone marrow of LPE-exposed CBA/N mice was reduced (30%) and elevated (120%), respectively, relative to their conventionally reared counterparts. The numbers of asialo-GM-1-positive (ASGM-1+) lymphoid cells, putative NK cells, in CBA/CaJ spleens were more numerous in conventionally reared than in LPE-exposed mice (4.9 X 10(6) vs. 2.7 X 10(6), and were also more numerous in the bone marrow of conventionally reared mice than in LPE-exposed animals (8.0 X 10(4), vs. 3.0 X 10(4) cells). Similarly, in LPE-exposed CBA/N mice, the numbers of ASGM-1+ lymphoid cells in the spleens and bone marrow were lower (2.7 X 10(6) and 5.4 X 10(4), respectively) than those of the spleens and bone marrow of their conventionally reared counterparts (3.8 X 10(6) and 10.0 X 10(4), respectively). The results demonstrate that short-term maintenance in an LPE affected the NK cells of both the spleen and bone marrow of immunologically normal and B-lymphocyte-deficient mice in a strain-specific manner and suggest that the external environment may regulate NK cell production and turnover.     

Direct interactions of coxsackievirus B3 with immune cells in the splenic compartment of mice susceptible or resistant to myocarditis.

In vitro replication of coxsackievirus B3 (CVB3) in cells of the immune system derived from uninfected adolescent A/J and C57BL/6J mice and replication of CVB3 in and association with immune cells from spleens of infected animals in vivo were assessed. Nonstimulated or mitogen-stimulated spleen cells were minimally permissive for viral replication during an 8-h period. Three days postinfection (p.i.), CVB3 RNA was localized in vivo to B cells and follicular dendritic cells of germinal centers in both A/J and C57BL/6J mice; however, extrafollicular localization was greater in C57BL/6J mice (P = 0.0054). Although the pattern of CVB3 RNA localization was different, the total load of infections virus (PFU per milligram of tissue) was not different. Splenic CVB3 titers (PFU per milligram of tissue) in both strains were maximal at day 3 or 4 p.i. and were back to baseline by day 7 p.i., with most infectious virus being non-cell associated. CVB3 titers (PFU per milligram of tissue) correlated directly with in situ hybridization positivity in splenic follicles and extrafollicular regions in both murine strains; however, follicular hybridization intensity was greater in A/J mice at day 5 p.i. (P = 0.021). Flow cytometric analysis demonstrated that 50.4% of total spleen cells positive for CVB3 antigen were B cells and 69.6% of positive splenic lymphocytes were B cells. Myocardial virus load in C57BL/6J mice was significantly lower than that in A/J mice at days 4 and 5 p.i. These data indicate that CVB3 replicates in murine splenocytes in vitro and in B cells and extrafollicular cells in vivo.     

Mechanism of recovery from acute virus infection. IV. Questionable role of mononuclear phagocytes in the clearance of lymphocytic choriomeningitis virus from spleens of mice

After intravenous infection of mice with 10(3) infectious units (IU) the WE strain lymphocytic choriomeningitis (LCM) virus multiplied in the spleens (as in all other major organs), reaching more than 10(8) IU/g of tissue on days 4 to 5. Subsequently, the virus was quickly eliminated, being below detectability usually by day 10. During the time of virus clearance, the mononuclear phagocytes (MNP) of the spleen were activated as revealed by suppression of growth of Listeria monocytogenes and increase of cell-associated hydrolytic enzymes. In athymic nude mice, in whom the MNP system is assumed to be permanently activated, the virus replicated slightly but reproducibly less than in their euthymic counterparts. However, when the MNP were activated by Corynebacterium parvum, virus in spleens attained higher concentrations than in mice not so treated, and the rate of elimination was not altered. In mice whose MNP had been damaged by injection of dextran sulfate 500, the spleen virus titers were also increased, but the subsequent immune elimination was slightly delayed. Activation of spleen MNP was not evident at the time virus was rapidly cleared as a result of transfusion of LCM-immune T lymphocytes. Adoptive immunization was as successful in mice that had been pretreated with gamma-rays or cyclophosphamide, suggesting that replicating cells or their descendants, in particular monocytes, did not participate measurably in the process of elimination. Pretreatments of recipients with dextran sulfate 500 reduced the efficacy of transfused LCM-immune T lymphocytes, but this compound probably directly affected the cells. We interpret these findings to mean that the LCM virus in the mouse's spleen is controlled by a mechanism in which MNP do not play an essential role.     

A vaccine based on exosomes secreted by a dendritic cell line confers protection against T. gondii infection in syngeneic and allogeneic mice

Our results show that exosomes secreted by SRDC pulsed in vitro with Toxoplasma gondii-derived antigens (Exo-TAg) induced protective responses against infection with the parasite in both syngeneic and allogeneic mice. After oral infection, syngeneic CBA/J mice exhibited significantly fewer cysts in their brains and allogeneic C57BL/6 mice survived. This protection was associated with strong humoral responses in vivo in serum from both CBA/J and C57BL/6 mice, and with high levels of anti-TAg IgA antibodies in intestinal secretions from CBA/J mice alone. Furthermore, strong cellular responses in vivo were observed in both mouse models. Cellular proliferation was associated with cytokines production by spleen and mesenteric lymph node cells. The results presented here show that exosomes are nucleic acid free vesicles that are able to induce immune responses correlated with protection against parasitic infections in both syngeneic and allogeneic mice. They could constitute an efficient tool for use in vaccination and antitumor strategies based on exosomes.     

Formation of antibodies against the antigen-recognizing receptors of T-lymphocytes in a syngenous system]

As shown, formation of antibodies to the antigen-recognition receptors of T-lymphocytes was possible in a syngeneic system. The antiserum of CBA mice given intravenous injections of CBA lymphocytes, immune to C57BL cells, proved to specifically inhibit in a mixed culture blasttransformation of CBA T-lymphocytes only against the C57BL cells. The same antiserum failed to influence the proliferative activity of CBA T-lymphocytes reacting to the "foreign" antigen (DBA/2 cells). No antibodies against the C57BL cells were revealed in the antireceptor antiserum. It is assumed that the autoantireceptor antibodies had a regulatory effect on the immune response.     

Generation of cytotoxic T lymphocytes during coxsackievirus tb-3 infection. II. Characterization of effector cells and demonstration cytotoxicity against viral-infected myofibers1.

This report describes studies characterizing the virus-specific cytotoxic effector cells which are present in the spleens of mice 7 days after infection with Coxsackievirus B-3. An in vitro 51Cr assay employing eyngeneic virus-infected neonatal fibroblasts was used to measure cytotoxic activity. Treatment of immune cells with (anti-thy-1.2) and complement abolished dtheir cytotoxic activity, but no reduction occurred when B cells were removed by incubation with anti-Ig and complement or macrophages eliminated by adherence depletion. The findings therefore imply that the cytotoxic reaction was mediated by sensitized T cells and that B cells and macrophages did not play an important role. Reciprocal assays performed with BALB/c and CBA/J cells showed that Coxsackievirus-immune spleen cells lysed infected syngeneic targets but not allogeneic targets, providing further evidence that cytotoxicity was mediated by effector T cells. In addition and in vitro assay system employing neonatal myocardial cells was developed and used to demonstrate that Coxsackievirus-infected myofibers were susceptible to destruction by immune spleen cells. The evidence suggests that mice infected with Coxsackie B viruses are able to mount a cell-mediated immune response with production of cytotoxic T cells which have the capacity to damage tissues infected with these agents.