Inhibition of immune-mediated meningoencephalitis in persistently Borna disease virus-infected rats by cyclosporine A

In rats persistently infected with Borna disease virus (BDV), severe neurologic disorders and occasional death are the consequences of a T cell-mediated immunopathologic reaction in the brain. It is shown here that the pathologic alterations in the brain and as a result, Borna Disease (BD) can be prevented if animals are treated with the immunosuppressive drug cyclosporine A (CSA) under the following optimal conditions: greater than or equal to 25 mg/kg/day of CSA, started before infection and given for 4 wk. Rats treated with lower doses of CSA, for shorter periods or after infection displayed encephalitic lesions and developed BD. When CSA treatment was begun even as early as 1 day after infection, encephalitis and disease were not influenced. Immune spleen cells passively transferred into CSA-treated rats induced the disease in the recipients, whereas lymphoid cells from CSA-treated rats did not induce BD in infected cyclophosphamide-treated recipients. Antibodies were not involved in BD because rats treated with CSA revealed an inhibition of the synthesis of virus-specific antibodies for all regimens of treatment used (whether successful in preventing BD or not). After i.v. challenge of CSA-treated healthy rats with BDV, antiviral antibodies at low titers could be induced in some animals; however, no encephalitis or disease symptoms could be observed at any time after infection. The same was true for rats reinfected intracerebrally with BDV after discontinuation of CSA. These results support the hypothesis that unresponsiveness and even tolerance can be induced by CSA in the presence of the foreign Ag, demonstrating the beneficial effect of this immunosuppressive drug during a persistent viral infection.     

Gamma interferon is a major mediator of antiviral defense in experimental measles virus-induced encephalitis.

Measles virus infection of the central nervous system in the murine model of experimental measles virus-induced encephalitis is successfully controlled by virus-specific T-helper lymphocytes. T cells from BALB/c mice that are resistant to measles virus encephalitis proliferate well against measles virus in vitro, and bulk cultures recognize viral nucleocapsid and hemagglutinin as well as fusion proteins. The measles virus-specific T cells secrete large amounts of interleukin 2 (IL-2), gamma interferon (IFN-gamma), and tumor necrosis factor alpha (TNF-alpha) but no IL-4, IL-6, or IL-10, and hence the cytokine pattern is consistent with that of subtype 1 T-helper lymphocytes. In contrast, cells obtained from measles virus-infected susceptible C3H mice recognize measles virus proteins only weakly and secrete little IFN-gamma and TNF-alpha. Treatment of infected mice with anti-TNF-alpha antibodies has no effect on survival or virus clearance from the brain. Upon neutralization of IFN-gamma in vivo, the phenotype of measles virus-specific T-helper cells isolatable from BALB/c mice is reversed from subtype 1 to subtype 2-like. Anti-IFN-gamma antibody-treated BALB/c mice are susceptible to measles virus encephalitis, and viral clearance from the central nervous system is impaired. These results indicate that IFN-gamma plays a significant role in the control of measles virus infection of the central nervous system.     

The anamnestic neutralizing antibody response is critical for protection of mice from challenge following vaccination with a plasmid encoding the Japanese encephalitis virus premembrane and envelope genes.

For Japanese encephalitis (JE), we previously reported that recombinant vaccine-induced protection from disease does not prevent challenge virus replication in mice. Moreover, DNA vaccines for JE can provide protection from high challenge doses in the absence of detectable prechallenge neutralizing antibodies. In the present study, we evaluated the role of postchallenge immune responses in determining the outcome of JE virus infection, using mice immunized with a plasmid, pcDNA3JEME, encoding the JE virus premembrane (prM) and envelope (E) coding regions. In the first experiment, 10 mice were vaccinated once (five animals) or twice (remainder) with 100 micrograms of pcDNA3JEME. All of these mice showed low (6 of 10) or undetectable (4 of 10) levels of neutralizing antibodies. Interestingly, eight of these animals showed a rapid rise in neutralizing antibody following challenge with 10,000 50% lethal doses of JE virus and survived for 21 days, whereas only one of the two remaining animals survived. No unimmunized animals exhibited a rise of neutralizing antibody or survived challenge. Levels of JE virus-specific immunoglobulin M class antibodies were elevated following challenge in half of the unimmunized mice and in the single pcDNA3JEME-immunized mouse that died. In the second experiment, JE virus-specific primary cytotoxic T-lymphocyte (CTL) activity was detected in BALB/c mice immunized once with 100 micrograms of pcDNA3JEME 4 days after challenge, indicating a strong postchallenge recall of CTLs. In the third experiment, evaluation of induction of CTLs and antibody activity by plasmids containing portions of the prM/E cassette demonstrated that induction of CTL responses alone were not sufficient to prevent death. Finally, we showed that antibody obtained from pcDNA3JEME-immunized mice 4 days following challenge could partially protect recipient mice from lethal challenge. Taken together, these results indicate that neutralizing antibody produced following challenge provides the critical protective component in pcDNA3JEME-vaccinated mice.     

A comparison of the immune response induced by DNA or by an inactivated vaccine against tick-borne encephalitis

BALB/c mice were immunized with recombinant plasmid DNA pSVK3-ENS1 and pcDNAI-NS3 containing, respectively, genes E-NS1 and NS3 of tick-borne encephalitis (TBE) virus. Antibodies to TBE virus proteins were detected in the blood sera of the immunized animals by the method of the enzyme immunoassay. Though the titers of virus-specific antibodies in the sera of mice immunized with protein vaccines exceeded those registered after immunization with DNA vaccines, essential protective immunity was observed after the use of both vaccines.     

Neonatal respiratory syncytial virus infection: role of transplacentally and breast milk-acquired antibodies.

The effect of transplacentally and breast milk-acquired antibodies on respiratory syncytial virus infection was studied in neonatal and 2-month-old cotton rats. Adult female rats infected intranasally with live virus regularly produced virus-specific antibodies in the serum, colostrum, and breast milk. By using foster feeding techniques, we showed that both transplacentally and breast milk-acquired antibodies were effective in reducing the replication of respiratory syncytial virus in the lungs of neonatal animals when they were challenged with live virus via the nasal route at 3 days of age. However, the protection provided by these antibodies was rather brief. There was no difference in the replication of respiratory syncytial virus in the lungs of 2-month-old animals that were delivered and nursed by seropositive (immunized) or seronegative (control) cotton rats.     

Immune complex formation during the passive immunization of mice infected with the tick-borne encephalitis virus

The results of investigations, indicating that the development of the infectious process in experimental encephalitis is accompanied by the formation of immune complexes circulating in the blood and localized in the brain tissue, are presented. The intravenous injections of a homologous serum preparation into intact animals induces the appearance of a rather low level of circulating immune complexes, which precedes the elimination of antibodies. The intravenous injection of a specific serum preparation two days after the infection of the animals with tick-borne encephalitis virus is accompanied by the formation of immune complexes; the course of infection is not aggravated.     

Measles virus encephalitis in ferrets as a model for subacute sclerosing panencephalitis

Young adult ferrets were used as experimental animals to study subacute sclerosing panencephalitis (SSPE). When cells infected with cell-associated measles virus strains isolated from SSPE patients were inoculated intracerebrally (i.c.) into ferrets, they developed an acute encephalitis and died within 1 to 3 weeks without detectable antibody formation. Immunization with live measles vaccine 5 weeks before i.c. inoculation changed the course of the infection in about 50% of the ferrets. These animals developed a subacute encephalitis within weeks or months after inoculation. Cell-associated measles virus was isolated from their brains and high measles antibody titers were found in their sera, comparable to those in sera of SSPE patients. Measles virus specific immunoglobulins (IgG) were present in their brains and determination of IgG/albumin ratios indicated that antibodies were synthesized in the brain in response to the persistent measles virus infection. Measles specific oligoclonal IgG bands were found in the sera and spinal fluids of these animals. Therefore, subacute ferret encephalitis has virological and immunological characteristics in common with SSPE, indicating that it may serve as a model for the human disease. Other animal models of SSPE are described briefly.     

Age affects quantity but not quality of antibody responses after vaccination with an inactivated flavivirus vaccine against tick-borne encephalitis

The impairment of immune functions in the elderly (immunosenescence) results in post-vaccination antibody titers that are significantly lower than in young individuals. It is, however, a controversial question whether also the quality of antibodies declines with age. In this study, we have therefore investigated the age-dependence of functional characteristics of antibody responses induced by vaccination with an inactivated flavivirus vaccine against tick-borne encephalitis (TBE). For this purpose, we quantified TBE virus-specific IgG and neutralizing antibody titers in post-vaccination sera from groups of young and elderly healthy adults and determined antibody avidities and NT/ELISA titer ratios (functional activity). In contrast to the quantitative impairment of antibody production in the elderly, we found no age-related differences in the avidity and functional activity of antibodies induced by vaccination, which also appeared to be independent of the age at primary immunization. There was no correlation between antibody avidity and NT/ELISA ratios suggesting that additional factors affect the quality of polyclonal responses, independent of age. Our work indicates that healthy elderly people are able to produce antibodies in response to vaccination with similar avidity and functional activity as young individuals, albeit at lower titers.     

Evaluation of the European tick‐borne encephalitis vaccine against Omsk hemorrhagic fever virus

This study focused on the antigenic cross‐reactivity between tick‐borne encephalitis virus (TBEV) and Omsk hemorrhagic fever virus (OHFV) to assess the efficacy of the commercial TBE vaccine against OHFV infection. Neutralization tests performed on sera from OHFV‐ and TBEV‐infected mice showed that neutralizing antibodies are cross‐protective. The geometric mean titers of antibodies against TBEV and OHFV from TBEV‐infected mice were similar. However, the titers of anti‐TBEV antibodies in OHFV‐infected mice were significantly lower than those of anti‐OHFV antibodies in the same animals. In mouse vaccination and challenge tests, the TBE vaccine provided 100% protection against OHFV infection. Eighty‐six percent of vaccinees seroconverted against OHFV following complete vaccination, and the geometric mean titers of neutralizing antibodies against OHFV were comparable to those against TBEV. These data suggest that the TBE vaccine can prevent OHFV infection.     

Antibody-dependent harmful effect of non-immune spleen cells in acute experimental tick-borne encephalitis in mice

The injection of nonprotective dilutions of immune serum and nonimmune spleen cells into mice infected with tick-borne encephalitis virus induced a sharply pronounced immunopathological effect: the mean survival time of the recipients decreased by 3.6 days in comparison with the control animals. This effect was not linked with the increased replication of the virus in the brain. The antibody-dependent damaging action of spleen cells could be reproduced by using the cells of both syngeneic and allogeneic donors. This phenomenon developed only in those cases when antibodies to the infective agent under study were used. The combination of immune serum to Japanese encephalitis virus and nonimmune spleen cells produced no damaging effect. The hypothesis stating that the antibody-dependent damaging action of nonimmune spleen cells arises from the antibody-dependent cytotoxic action of immunocompetent cells on the infected cells of the central nervous system is discussed.     

Qualitative and quantitative characteristics of rotavirus-specific CD8 T cells vary depending on the route of infection

CD8 T-cell response provides an important defense against rotavirus, which infects a variety of systemic locations in addition to the gut. Here we investigated the distribution, phenotype, and function of rotavirus-specific CD8 T cells in multiple organs after rotavirus infection initiated via the intranasal, oral, or intramuscular route. The highest level of virus-specific CD8 T cells was observed in the Peyer's patches of orally infected mice and in the lungs of intranasally infected animals. Very low levels of virus-specific CD8 T cells were detected in peripheral blood or spleen irrespective of the route of infection. Rotavirus-specific CD8 T cells from Peyer's patches of orally infected mice expressed high levels of CCR9, while CXCR6 and LFA-1 expression was associated with virus-specific CD8 T cells in lungs of intranasally infected mice. Oral infection induced the highest proportion of gamma interferon(-) CD107a/b(+) CD8 T cells in Peyer's patches. When equal numbers of rotavirus-specific CD8 T cells were transferred into Rag-1 knockout mice chronically infected with rotavirus, the donor cells derived from Peyer's patches of orally infected mice were more efficient than those derived from lungs of intranasally infected animals in clearing intestinal infection. These results suggest that different routes of infection induce virus-specific CD8 T cells with distinct homing phenotypes and effector functions as well as variable abilities to clear infection.     

Expression of gene coding for the NS1 protein of the tick-borne encephalitis virus in Escherichia coli cell

Two possible forms of tick-borne encephalitis virus (TBE) gene NS1 (called NS1' and NS1) were constructed using two overlapping cDNA-fragments of TBE genome and synthetic DNA fragments. This genes were expressed in E. coli cells in expression vector pUR290 as individual proteins or fusion with bacterial beta-galactosidase. The proteins NS1 (Mw. 39 kDa), beta-galactosidase-NS1' (Mw. 162 kDa) and beta-galactosidase-NS1 (Mw. 155 kDa) were effectively synthesized under the Plgc-promoter induction conditions. Expression of NS1' gene results in the formation of two virus-specific proteins (Mw. 46 and 44 kDa). All bacterial analogs of NS1 protein fixed monoclonal and polyclonal antibodies specific to viral NS1.     

Synthetic fragments of the NS1 protein of the tick-borne encephalitis virus exhibiting a protective effect

Potentially immunoactive regions of the NS1 nonstructural protein of the tick-borne encephalitis virus that can stimulate the antibody formation in vivo and protect animals from this disease were chosen on the basis of theoretical calculations. Eleven 16- to 27-aa peptides containing the chosen regions were synthesized. The ability of the free peptides (without any high-molecular-mass carrier) to stimulate the production of antipeptide antibodies in mice of three lines and ensure the formation of protective immunity was studied. Most of these peptides were shown to exhibit the immunogenic activity in a free state. Five fragments that can protect mice from the infection by a lethal dose of tick-borne encephalitis virus were found.     

Immunocorrecting and protective effect of proteolytic enzymes on antibody formation in mice in staphylococcal infection and antibiotic treatment

The impact of proteolytic enzymes on the humoral immune response, survival rate and mean survival time of mice, infected with S. aureus culture and receiving antibiotics was studied. Infection with staphylococcal suppressed the formation of antibodies to sheep red blood cells. Ampicillin made this immunosuppression even more pronounced, while gentamicin produced practically no effect on the degree of immunosuppression in the infected animals. Proteolytic enzymes terrilytin and terridecase exhibited immunocorrecting properties when used in combination with antibiotics. Terridecase, the immobilized form of the enzyme proved to have the highest activity. In experimental generalized staphylococcal infection all preparations under study produced a protective effect. The maximum effect was noted after the use of ampicillin in combination with terridecase.     

Dynamics of the immune system response in cerebrospinal fluid and blood of SIVmac-infected rhesus monkeys

Paired sera and CSF samples were collected from SIV_mac-infected macaques. Animals infected with SIV_mac251 maintained low gag and high env-specific antibody levels in plasma. Increasing env-specific antibody titers in CSF were associated in one animal with strong intrathecal synthesis. SIV_mac239-infected monkeys revealed high antibody titers of gag and env-specificity, in one animal accompanied by weak intrathecal synthesis of virus-specific antibodies. In all animals, the CD4/CD8 ratio in CSF decreased faster compared to blood.     

Synthetic fragments of the NS1 protein of the tick-borne encephalitis virus exhibiting a protective effect

Potentially immunoactive regions of the NS1 nonstructural protein of the tick-borne encephalitis virus that can stimulate the antibody formation in vivo and protect animals from this disease were chosen on the basis of theoretical calculations. Eleven 16-to 27-aa peptides containing the chosen regions were synthesized. The ability of the free peptides (without any high-molecular-mass carrier) to stimulate the production of antipeptide antibodies in mice of three lines and ensure the formation of protective immunity was studied. Most of these peptides were shown to exhibit the immunogenic activity in a free state. Five fragments that can protect mice from the infection by a lethal dose of tick-borne encephalitis virus were found.     

Preventive effects of early anti-CD4 or anti-CD8 treatment on Borna disease in rats.

Borna disease is a virus-induced, immunopathological encephalomyelitis in which CD4+ cells and macrophages dominate the pathological picture. However, significant numbers of CD8+ cells have been morphologically identified in perivascular infiltrates as well. To determine the contribution of different T-cell subsets to the pathogenesis of Borna disease, virus-infected rats were treated with monoclonal antibodies specific for CD4+ and CD8+ cells. Both types of monoclonal antibodies were able to significantly decrease or even prevent the local inflammatory reaction in the brain if given early during the infection. However, CD8-specific monoclonal antibodies appeared to be more effective than antibodies directed against CD4+ cells. Treatment initiated 4 days postinfection did not result in inhibition of encephalitis and disease. Virus titers in the brain of infected rats treated with T-cell-specific antibodies did not differ from titers in untreated infected control animals. The results indicate an important functional role of CD8+ cells, in addition to CD4+ cells, in the pathogenesis of Borna disease.     

Importance of T-lymphocytes in antibody production in experimental typhus infection

The study of antibody production in cotton rats infected with Rickettsia prowazekii B and TB has revealed that R. prowazekii antigens, inducing the production of antibodies determined in the complement fixation, indirect hemolysis, and passive hemagglutination tests, are T-independent. The study of the nonspecific reactivity of T-lymphocytes in cotton rats infected with R. prowazekii TB has indicated that in case of the prolonged persistence of the infective agent in the animals no secondary immune deficiency develops.     

Development of an ELISA system for tick-borne encephalitis virus infection in rodents

Tick-borne encephalitis (TBE) virus causes severe encephalitis with serious sequelae in humans. An epizootiological survey of wild rodents is effective to detect TBE virus-endemic areas; however, limited serological diagnostic methods are available to detect anti-TBE virus antibodies in wild rodents. In this study, ELISAs for the detection of rodent antibodies against the TBE virus were developed using two recombinant proteins, domain III of the E protein (EdIII) and subviral particles (SPs), as the antigens. As compared with the neutralization test, the ELISA using EdIII had 77.1% sensitivity and 80.0% specificity, and the ELISA using SPs had 91.4% sensitivity and 100% specificity. Furthermore, when the ELISAs were applied to the epizootiological survey in the TBE virus-endemic area, both of the ELISAs was able to detect wild rodents with TBE virus-specific antibodies. This is the first study to show that ELISAs using recombinant antigens can be safe and useful in the detection of TBE virus-infected wild rodents in epizootiological research.     

Toxoplasma gondii: cold stress-induced modulation of antibody responses.

Physical or psychological stressors have been shown to have significant consequences in the immune function and the outcome of disease in human and animal models. Recent work has demonstrated that products released during stress, such as glucocorticoids and catecholamines, can profoundly influence the in vitro growth of pathogens by modulating immune responses. The present study examined the effects of a physical stressor (cold stress) on antigens of Toxoplasma gondii that elicits an antibody-mediated immune response during the acute and chronic phases of infection. Sera obtained from different groups of mice subjected to cold stress during the acute and chronic phases of T. gondii infection were used to measure the levels of antibodies and to localize by Western blot the dominant antigens eliciting IgG and IgM antibody responses. Serum antibodies collected from stressed and infected mice recognized antigens different from those recognized by infected mice without stress. During the acute phase, a stronger IgM antibody response against antigens of 30, 42, 54, and 60 kDa was detected in stressed animals at 3 weeks postinfection. In addition, a 5-kDa antigen was specifically detected in mice subjected to stress during the acute and chronic phases of infection. Levels of specific IgG were increased in infected and in infected and stressed animals that underwent stress in the chronic phase. IgM production did not increase following cold stress in the chronic phase. These results suggest that the strong antibody response in stressed animals is associated with longer parasite persistence in circulation. Stress modulated not only the host immune response but also the ability of parasite antigens to elicit specific antibody responses by the host.