Generation of memory cell-mediated immune responses after secondary infection of mice with pichinde virus

Pichinde virus (PV), a member of the arenavirus group, was found to elicit strong cell-mediated immune responses in various strains of mice. After primary i.v. inoculation, augmentation of natural killer (NK) cell activity occurred and peaked 3 to 4 days after infection. The NK response was followed by a second peak of cytotoxic activity that was found to be H-2 restricted, virus specific, and mediated by Thy-1.2+, Lyt-2.2+ lymphocytes. This cytotoxic T lymphocyte (CTL) response peaked 7 days post infection. Neutralizing antibodies were not detectable after PV infection of the mice. In light of this, we investigated the generation and kinetics of secondary cell-mediated immune responses after reinjection of homologous virus in vivo. Slight but significant augmentation of NK activity was observed 1 day after secondary virus challenge. As in the primary response, effectors of this NK activity rapidly became sensitive to anti-Thy-1.2 and complement treatment. NK activity rapidly returned to background levels and was followed by an anamnestic CTL response that peaked 4 days after reinjection of the virus. Thus, cell-mediated immune responses appeared more rapidly after secondary challenge in vivo, and the temporal relationship between NK and CTL generation was maintained. Both secondary NK and CTL responses were generated in mice that had been pretreated with cyclophosphamide (CY), suggesting that memory cell-mediated immune responses can be reactivated in vivo without undergoing cell division. In contrast, treatment with CY before primary infection delayed the appearance of virus-induced NK activity and abrogated the generation of H-2-restricted virus-specific CTL. Rechallenge of these CY-treated NK-primed mice resulted in the rapid generation of a secondary NK response that was not followed by either a primary or secondary CTL response. The data suggest that cells mediating a nonspecific effector function may possess specific memory. We discuss our results with respect to possible NK-CTL relationships.     

CD40 Ligand-Mediated Interactions Are Involved in the Generation of Memory CD8+ Cytotoxic T Lymphocytes (CTL) but Are Not Required for the Maintenance of CTL Memory following Virus Infection

CD8⁺ cytotoxic T lymphocytes (CTL) play a key role in the control of many virus infections, and the need for vaccines to elicit strong CD8⁺ T-cell responses in order to provide optimal protection in such infections is increasingly apparent. However, the mechanisms involved in the induction and maintenance of CD8⁺ CTL memory are currently poorly understood. In this study, we investigated the involvement of CD40 ligand (CD40L)-mediated interactions in these processes by analyzing the memory CTL response of CD40L-deficient mice following infection with lymphocytic choriomeningitis virus (LCMV). The maintenance of memory CD8⁺ CTL precursors (CTLp) at stable frequencies over time was not impaired in CD40L-deficient mice. By contrast, the initial generation of memory CTLp was affected. CD40L-deficient mice produced lower levels of CD8⁺ CTLp during the primary immune response to LCMV than did wild-type controls, despite the fact that the LCMV-specific effector CTL response of CD40L-deficient mice was indistinguishable from that of control animals. The differentiation of naïve CD8⁺ T cells into effector and memory CTL thus involves pathways that can be discriminated from each other by their requirement for CD40L-mediated interactions. Expression of CD40L by CTLp themselves was not an essential step during their expansion and differentiation from naïve CD8⁺ cells into memory CTLp; instead, the reduction in memory CTLp generation in CD40L-deficient mice was likely a consequence of defects in the CD4⁺ T-cell response mounted by these animals. These results thus suggest a previously unappreciated role for CD40L in the generation of CD8⁺ memory CTLp, the probable nature of which is discussed.     

Biology of cloned cytotoxic T lymphocytes specific for lymphocytic choriomeningitis virus. VI. Migration and activity in vivo in acute and persistent infection

Cloned cytotoxic T lymphocytes (CTL) specific for lymphocytic choriomeningitis virus (LCMV) were adoptively transferred to syngeneic mice acutely or persistently (carrier mice) infected with LCMV. Although infectious virus was cleared from the spleens during acute LCMV infection begun 24 hr earlier and the spleens remained clear of virus for the 4 days of testing, there was no concomitant reduction of viral titers in lymph nodes. In contrast, adoptive transfer of cloned CTL into animals with persistent rather than acute LCMV infection resulted in deaths of syngeneic but not allogeneic recipients. LCMV-immune spleen cells taken 30 to 50 days after a primary immunization and activated by in vitro stimulation before transfer also caused death of syngeneic carrier mice. However, LCMV-immune spleen cell per se provoked no clinical manifestations when transferred but cleared infectious virus and viral nucleic acid sequences from syngeneic carrier mice. The migration of 51Cr-labeled, LCMV-specific, H-2-restricted cloned CTL was assessed in vivo. The circulation of these CTL clearly differed from that of spleen cells freshly isolated from uninfected mice and from non-LCMV-specific CTL clone. Further, the circulatory pattern of LCMV-specific, H-2-restricted, cloned CTL in carrier mice was markedly different than in uninfected animals; only 7% of the injected cells remained in the lungs of uninfected mice 8 hr after injection, whereas 30% had accumulated in the liver. However, 55% of the cells injected into carrier mice still remained in their lungs 8 to 16 hr later. Hence, LCMV-specific, H-2-restricted, cloned CTL have unique trafficking patterns in the presence of LCMV antigens and immune activities in vivo.     

CD4-deficient mice have reduced levels of memory cytotoxic T lymphocytes after immunization and show diminished resistance to subsequent virus challenge.

Although primary antiviral CD8+ cytotoxic T lymphocytes (CTL) can be induced in mice depleted of CD4+ T cells, the role of CD4+ T lymphocytes in the generation and maintenance of antiviral memory CTL is uncertain. This question, and the consequences upon vaccine-mediated protection, were investigated in transgenic CD4 knockout (CD4ko) mice, which lack CD4+ T lymphocytes. Infection of immunocompetent C57BL/6 mice with lymphocytic choriomeningitis virus (LCMV), or with recombinant vaccinia viruses bearing appropriate LCMV sequences, induces long-lasting protective immunity, mediated mainly by antiviral CD8+ CTL. Here we report two important findings. First, LCMV-specific CD8+ memory CTL are maintained at considerably lower levels in CD4ko mice than in normal C57BL/6J mice; we demonstrate a reduction in precursor CTL evident as soon as 30 days postimmunization and declining, by day 120, to levels 1 to 2 log units below those in normal mice. Thus, CD4+ T cells appear to be important to the generation and maintenance of their CD8+ counterparts. Second, this reduction has an important biological consequence; compared with immunocompetent mice, CD4ko mice immunized with vaccinia virus recombinants expressing nucleoprotein or glycoprotein of LCMV are less effectively protected from subsequent LCMV challenge. Thus, this study underscores the potential importance of CD4+ T lymphocytes in generation of appropriate levels of CD(8+)-cell-mediated immunoprotective memory and has implications for vaccine efficacy in individuals with immune defects in which CD4 levels may be reduced, such as AIDS.     

Common Antiviral Cytotoxic T-Lymphocyte Epitope for Diverse Arenaviruses

Members of the Arenaviridae family have been isolated from mammalian hosts in disparate geographic locations, leading to their grouping as Old World types (i.e., lymphocytic choriomeningitis virus [LCMV], Lassa fever virus [LFV], Mopeia virus, and Mobala virus) and New World types (i.e., Junin, Machupo, Tacaribe, and Sabia viruses) (C. J. Peters, M. J. Buchmeier, P. E. Rollin, and T. G. Ksiazek, p. 1521-1551, in B. N. Fields, D. M. Knipe, and P. M. Howley [ed.], Fields virology, 3rd ed., 1996; P. J. Southern, p. 1505-1519, in B. N. Fields, D. M. Knipe, and P. M. Howley [ed.], Fields virology, 3rd ed., 1996). Several types in both groups-LFV, Junin, Machupo, and Sabia viruses-cause severe and often lethal human diseases. By sequence comparison, we noted that eight Old World and New World arenaviruses share several amino acids with the nucleoprotein (NP) that consists of amino acids (aa) 118 to 126 (NP 118-126) (RPQASGVYM) of LCMV that comprise the immunodominant cytotoxic T-lymphocyte (CTL) epitope for H-2(d) mice (32). This L(d)-restricted epitope constituted >97% of the total bulk CTLs produced in the specific antiviral or clonal responses of H-2(d) BALB mice. NP 118-126 of the Old World arenaviruses LFV, Mopeia virus, and LCMV and the New World arenavirus Sabia virus bound at high affinity to L(d). The primary H-2(d) CTL anti-LCMV response as well as that of a CTL clone responsive to LCMV NP 118-126 recognized target cells coated with NP 118-126 peptides derived from LCMV, LFV, and Mopeia virus but not Sabia virus, indicating that a common functional NP epitope exists among Old World arenaviruses. Use of site-specific amino acid exchanges in the NP CTL epitope among these arenaviruses identified amino acids involved in major histocompatibility complex binding and CTL recognition.     

Virus-specific memory T cells are Pgp-1+ and can be selectively activated with phorbol ester and calcium ionophore

Memory lymphocytic choriomeningitis virus (LCMV)-immune cytotoxic T-lymphocyte precursors (CTLp) can be stimulated to proliferate and to mediate specific cytotoxic activity following incubation with phorbol myristate acetate (PMA), calcium ionophore (CaI), and interleukin 2 (IL-2). This protocol can be used to selectively induced virus-specific CTL activity under both bulk culture and limiting dilution conditions, in the absence of added antigen. There is no concurrent stimulation of alloreactive CTLp. Proliferation of the effector Lyt-2+ population in medium containing PMA and CaI requires L3T4+ cells, which can be replaced by adding IL-2, and the development of cytotoxicity is totally IL-2 dependent. The LCMV-specific memory T cells are also characterized by the expression of the Pgp-1 (Ly24) glycoprotein. The availability of this marker, together with the capacity to selectively stimulate primed CTLp in the absence of antigen, should greatly facilitate the analysis of T-cell memory in virus infections.     

The Magnitude and Specificity of Influenza A Virus-Specific Cytotoxic T-Lymphocyte Responses in Humans Is Related to HLA-A and -B Phenotype

The repertoire of human cytotoxic T-lymphocytes (CTL) in response to influenza A viruses has been shown to be directed towards multiple epitopes, with a dominant response to the HLA-A2-restricted M1(58-66) epitope. These studies, however, were performed with peripheral blood mononuclear cells (PBMC) of individuals selected randomly with respect to HLA phenotype or selected for the expression of one HLA allele without considering an influence of other HLA molecules. In addition, little information is available on the influence of HLA makeup on the overall CTL response against influenza viruses. Here, the influenza A virus-specific CTL response was investigated in groups of HLA-A and -B identical individuals. Between groups the individuals shared two or three of the four HLA-A and -B alleles. After in vitro stimulation of PBMC with influenza virus, the highest CTL activity was found in HLA-A2(+) donors. A similar pattern was observed for the precursor frequency of virus-specific CTL (CTLp) ex vivo, with a higher CTLp frequency in HLA-A2-positive donors than in HLA-A2-negative donors, which were unable to recognize the immunodominant M1(58-66) epitope. In addition, CTL activity and frequency of CTLp for the individual influenza virus epitopes were determined. The frequency of CTLp specific for the HLA-B8-restricted epitope NP(380-388) was threefold lower in HLA-B27-positive donors than in HLA-B27-negative donors. In addition, the frequency of CTLp specific for the HLA-A1-restricted epitope NP(44-52) was threefold higher in HLA-A1-, -A2-, -B8-, and -B35-positive donors than in other donors, which was confirmed by measuring the CTL activity in vitro. These findings indicate that the epitope specificity of the CTL response is related to the phenotype of the other HLA molecules. Furthermore, the magnitude of the influenza virus-specific CTL response seems dependent on the HLA-A and -B phenotypes.     

Induction of TNP-specific cytotoxic T lymphocyte memory in vivo in the absence of T helper cell activity

The question of whether TH cells are required for the priming of CTL precursors (CTLp) in vivo was studied by using Txbm mice (Thymectomized, irradiated, and stem cell-reconstituted mice). In these mice, TNP-specific CTL could be induced in vitro with TNP-coupled spleen cells only if the cultures were supplemented with an IL 2-containing supernatant (ConAsup). In contrast to normal mice, TNP-specific Lyt-2-TH cells could not be induced by skin painting with trinitrochlorobenzene (TNCB) (as tested by the ability to help CTL formation from thymocyte or normal spleen precursors). These data confirm previous findings that Txbm mice possess CTLp but that their TH compartment is deficient. TNCB skin painting had, however, a clear priming effect on the CTLp population: spleen cells from TNCB-painted mice could give rise to specific CTL with a lower amount of ConAsup than spleen cells from unprimed mice. In addition to this, priming changed the CTLp so that stimulation with lightly coupled cells (0.1 mM trinitrobenzene sulfonic acid [TNBS] instead of 10 mM TNBS) became effective. These changes took place without a significant increase in the frequency of TNP-specific CTL precursors. The data obtained are consistent with the concept that at least with some antigens, CTLp proliferation (clonal expansion), which is probably caused by activated TH cells, is not required for the induction of immunologic memory in vivo.     

Dose dependence of CTL precursor frequency induced by a DNA vaccine and correlation with protective immunity against influenza virus challenge

Intramuscular injection of BALB/c mice with a DNA plasmid encoding nucleoprotein (NP) from influenza virus A/PR/8/34 (H1N1) provides cross-strain protection against lethal challenge with influenza virus A/HK/68 (H3N2). CTL specific for the H-2Kd-restricted epitope NP147-155 are present in these mice and are thought to play a role in the protection. To assess the effectiveness of NP DNA immunization in comparison with influenza virus infection in the induction of CTL responses, we monitored the frequency of CTL precursors (CTLp) in mice following i.m. injection with NP DNA or intranasal infection with influenza virus and showed that the CTLp frequency in NP DNA-immunized mice can reach levels found in mice that had been infected with influenza virus. We also measured the CTLp frequency, anti-NP Ab titers, and T cell proliferative responses in mice that were injected with titrated dosages of NP DNA and documented a correlation of the CTLp frequency and the Ab titers, but not proliferative responses, with the injection dose. Furthermore, we observed a positive correlation between the frequency of NP147-155 epitope-specific CTLp and the extent of protective immunity against cross-strain influenza challenge induced by NP DNA injection. Collectively, these results and our early observations from adoptive transfer experiments of in vitro activated lymphocytes from NP DNA-immunized mice suggest a protective function of NP-specific CTLp in mice against cross-strain influenza virus challenge.     

Enhanced establishment of a virus carrier state in adult CD4+ T-cell-deficient mice.

CD4+ T cells play an important role in regulating the immune response; their contribution to virus clearance is variable. Mice that lack CD4+ T cells (CD4-/- mice) and are therefore unable to produce neutralizing antibodies cleared viscero-lymphotropic lymphocytic choriomeningitis virus (LCMV) strain WE when infected intravenously with a low dose (2 x 10(2) PFU) because of an effective CD8+ cytotoxic T-cell (CTL) response. In contrast, infection with a high dose (2 x 10(6) PFU) of LCMV strain WE led to expansion of antiviral CTL, which disappeared in CD4-/- mice; in contrast, CD4+ T-cell-competent mice developed antiviral memory CTL. This exhaustion of specific CTL caused viral persistence in CD4-/- mice, whereas CD4+ T-cell-competent mice eliminated the virus. After infection of CD4-/- mice with the faster-replicating LCMV strain DOCILE, abrogation of CTL response and establishment of viral persistence developed after infection with a low dose (5 x 10(2) PFU), i.e., an about 100-fold lower dose than in CD(4+)-competent control mice. These results show that absence of T help enhances establishment of an LCMV carrier state in selected situations.     

Molecularly engineered vaccine which expresses an immunodominant T-cell epitope induces cytotoxic T lymphocytes that confer protection from lethal virus infection

Identification of a single viral T-cell epitope, associated with greater than 95% of the virus-specific cytotoxic T-lymphocyte (CTL) activity in BALB/c (H-2d) mice (J. L. Whitton, A. Tishon, H. Lewicki, J. Gebhard, T. Cook, M. Salvato, E. Joly, and M. B. A. Oldstone, J. Virol. 63:4303-4310, 1989), permitted us to design a CTL vaccine and test its ability to protect against a lethal virus challenge. Here we show that a single immunization with a recombinant vaccinia virus-lymphocytic choriomeningitis virus (LCMV) vaccine (VVNPaa1-201) expressing the immunodominant epitope completely protected H-2d mice from lethal infection with LCMV but did not protect H-2b mice. Furthermore, we show that the success or failure of immunization was determined entirely by the host class I major histocompatibility glycoproteins. The difference in outcome between mice of these two haplotypes was consistent with the presence or absence in the immunizing sequences of an epitope for CTL recognition and is correlated with the induction of LCMV-specific H-2-restricted CTL in H-2d mice. Protection is not conferred by a humoral immune response, since LCMV-specific antibodies were not detectable in sera from VVNPaa1-201-immunized mice. In addition, passive transfer of sera from vaccinated mice did not confer protection upon naive recipients challenged with LCMV. Hence, the molecular dissection of viral proteins can uncover immunodominant CTL epitope(s) that can be engineered into vaccines that elicit CTL. A single CTL epitope can protect against a lethal virus infection, but the efficacy of the vaccine varies in a major histocompatibility complex-dependent manner.     

Transforming growth factor-beta inhibits the generation of cytotoxic T cells in virus-infected mice

The immunoregulatory effects of human recombinant transforming growth factor (rTGF) beta 1 and human recombinant glioblastoma-derived T cell suppressor factor (rG-TsF)/TGF beta 2 was investigated in mice infected with lymphocytic choriomeningitis virus (LCMV) or vaccinia virus. Starting on the day of infection, i.p. injections of 1 microgram/day or rTGF-beta 1 or rG-TsF/TGF-beta 2 suppressed the generation of virus specific CTL. The effect of TGF-beta on CTL (day 8) was less pronounced when TGF-beta treatment was delayed for 3 days after LCMV infection. rG-TsF/TGF-beta 2 also has an inhibiting effect on CTL-mediated disease in LCMV-infected mice: it prolonged the survival time of mice infected with LCMV and reduced the local swelling reaction after infection into the footpad. These results indicate that rTGF-beta 1 and rG-TsF/TGF-beta 2 influence T cell immune reactivity in vivo.     

Generation of cytotoxic T cells specific for minor histocompatibility antigens by cross challenge in vitro with H-2 disparate adherent cells

Although it is well known that an H-2-restricted cytotoxic T cell response to minor histocompatibility antigens (MIHA) can be primed in vivo with H-2 disparate spleen cells, it has not been previously possible to induce cytotoxic T lymphocyte (CTL) precursors (CTLp) in vitro by this type of challenge. In this work, we demonstrate that the inability to cross challenge in vitro is due to the existence of inhibitory effects that can be obviated by cell fractionation, and to insufficient priming in vivo. BALB/c CTLp (H-2d) that have been repeatedly primed in vivo with B10.D2 can be challenged in vitro with C57BL10/J (H-2b) or B10.BR (H-2k)-adherent cells to generate CTL able to lyse B10.D2 (H-2d) target cells. The H-2 restriction properties of the cross-challenged CTL specific for MIHA were analyzed by using the technique of cold target competition. Within the limits of detection in bulk cultures, the entire response appeared to be H-2 unrestricted, whether the cross challenge was with intact C57BL10/J-adherent cells, or with membrane fragments of C57BL10/J presented by BALB/c adherent cells. The frequency of CTLp responsive to cross challenge was analyzed by limiting dilution, with cold target competition at each cell number to establish the restriction properties of the MIHA-specific CTL induced. We were able to detect two subsets of H-2-unrestricted CTLp responsive to intact C57BL10/J-adherent cells; one present at high frequency (1/250 T cells) and subject to suppressive effects at high cell number, and a second present at lower frequency (1/9800 T cells). There appeared to be a relatively infrequent subset of H-2-restricted CTLp as well (1/52,500 T cells). The frequency of CTLp responsive to cross challenge is of comparable magnitude to the frequency of H-2-restricted CTLp responsive to H-2-matched cells bearing MIHA. These observations are discussed in relationship to immunodominance and clonal dominance effects in the response to MIHA.     

DNA vaccination against persistent viral infection.

This study shows that DNA vaccination can confer protection against a persistent viral infection by priming CD8+ cytotoxic T lymphocytes (CTL). Adult BALB/c (H-2d) mice were injected intramuscularly with a plasmid expressing the nucleoprotein (NP) gene of lymphocytic choriomeningitis virus (LCMV) under the control of the cytomegalovirus promoter. The LCMV NP contains the immunodominant CTL epitope (amino acids 118 to 126) recognized by mice of the H-2d haplotype. After three injections with 200 micrograms of NP DNA, the vaccinated mice were challenged with LCMV variants (clones 13 and 28b) that establish persistent infection in naive adult mice. Fifty percent of the DNA-vaccinated mice were protected, as evidenced by decreased levels of infectious virus in the blood and tissues, eventual clearance of viral antigen from all organs tested, the presence of an enhanced LCMV-specific CD8+ CTL response, and maintenance of memory CTL after clearance of virus infection. However, it should be noted that protection was seen in only half of the vaccinated mice, and we were unable to directly measure virus-specific immune responses in any of the DNA-vaccinated mice prior to LCMV challenge. Thus, at least in the system that we have used, gene immunization was a suboptimal method of inducing protective immunity and was several orders of magnitude less efficient than vaccination with live virus. In conclusion, our results show that DNA immunization works against a persistent viral infection but that efforts should be directed towards improving this novel method of vaccination.     

Uncovering subdominant cytotoxic T-lymphocyte responses in lymphocytic choriomeningitis virus-infected BALB/c mice.

The cytotoxic T-lymphocyte response against lymphocytic choriomeningitis virus (LCMV) in BALB/c mice is predominantly directed against a single, Ld-restricted epitope in the viral nucleoprotein (residues 118 to 126). To investigate whether any Kd/Dd-restricted responses were activated but did not expand during the primary response, we used a BALB/c mutant, BALB/c-H-2dm2, which does not express the Ld molecule. Splenocytes from LCMV-infected BALB/c mice were transferred into irradiated BALB/c-H-2dm2 mice and rechallenged with LCMV. Thus, they were exposed to an antigenic stimulus without the involvement of the immunodominant Ld-restricted epitope. In this adoptive transfer model, the donor splenocytes protected the recipient mice against chronic LCMV infection by mounting a potent Kd- and/or Dd-restricted secondary antiviral response. Analysis of a panel of Kd binding LCMV peptides revealed that residues 283 to 291 from the viral glycoprotein (GP(283-291)) comprise a major new epitope in the adoptive transfer model. Because the donor splenocytes were first activated during the primary infection in BALB/c mice, the GP(283-291) epitope is a subdominant epitope in BALB/c mice that becomes dominant after rechallenge in BALB/c-H-2dm2 mice. This study makes two points. First, it shows that subdominant CTL responses can be protective, and second, it provides a general experimental approach for uncovering subdominant CTL responses in vivo. This strategy can be used to identify subdominant T-cell responses in other systems.     

A requirement for physical linkage between determinants recognized by helper molecules and cytotoxic T cell precursors in the induction of cytotoxic T cell responses

It has long been understood that both antibody and delayed-type hypersensitivity responses are induced through collaborative events in which the determinants recognized by the precursor cells must be physically linked to the determinants recognized by the helper. Although it is clear that the generation of memory cytotoxic T lymphocyte precursors (CTLp) involves linked recognition of determinants, the induction of CTL responses has been viewed as being dependent upon interleukin 2 (IL 2), which could be provided by a helper cell, but independent of requirements for antigen bridging. In this work, we have designed a system that lacks exogenous IL 2 by using as our source of help, antigen-specific helper molecules derived from helper T cells. These soluble helper molecules are uncontaminated by IL 2 and unlike a helper cell, are unable to produce IL 2. Helper molecules specific for chicken red blood cells (Crbc) and for a synthetic polypeptide, poly 18, were tested. Thymocyte responders require a source of help to respond to alloantigens intrinsically expressed on the surface of adherent stimulator cells. To analyze the mechanism whereby the helper molecules acted, we used a system involving recognition of haptenic and carrier determinants that were physically linked by virtue of being located on the same cell surface (intra-structural linkage). Adherent stimulator cells were pulsed with Crbc or poly 18 so that the alloantigens recognized by the thymocyte CTLp (intrinsically expressed class I) were either linked or unlinked to the carrier determinants (Crbc or poly 18) presented by the adherent cells and recognized by the helper molecules. Both types of helper molecule were shown to be antigen-specific in crisscross experiments. The helper molecules specific for Crbc were able to induce the thymocyte CTLp only when both hapten and carrier were present on the same stimulator cell surface. Because we were not able to detect a requirement for H-2-restricted recognition of carrier antigen, this inductive event must be viewed as requiring linked associative recognition of determinants, but being noncognate. In contrast, the helper molecules recognizing poly 18 showed a requirement for both physical linkage of determinants and for H-2 restricted recognition, indicating that the mechanism of induction was cognate in nature. Therefore, we have shown that interactions between CTLp and soluble, antigen-specific, helper cell-derived inductive molecules are similar in nature to those of other T cell precursors and of B cells in the stringent requirement for close physical proximity achieved by linked or cognate recognition of determinants across an antigen bridge.     

Enhanced resistance againstEscherichia coli infection by subcutaneous administration of the hot-water extract ofChlorella vulgaris in cyclophosphamide-treated mice

Summary The effects ofChlorella vulgaris extract (CVE-A) on the recovery of leukocyte number and the augmentation of resistance to bacterial infection were examined in CDF1 mice made neutropenic by cyclophosphamide (CY). They were treated intraperitoneally with CY (150 mg/kg) on day 0, and were given CVE-A (50 mg/kg) subcutaneously (s. c.) every other day from day 1 to day 13 after CY treatment. CVE-A accelerated the recovery of polymorphonuclear leukocytes (PMN) in the peripheral blood in CY-treated mice. The number of granulocyte/monocyte-progenitor cells (CFU-GM) in the spleen increased rapidly and highly after the administration of CVE-A in CY-treated mice, in contrast to the absence of change due to CVE-A in the number of bone marrow cells in CY-treated mice. Administration of CVE-A in CY-treated mice enhanced the accumulation of PMN in the inflammatory site and the activity of the accumulated leukocyte cells in luminol-dependent chemiluminescence. The mice became highly susceptible to an intraperitoneal infection withE.coli on day 4 after CY treatment, whereas the mice given CVE-A showed an enhanced resistance againstE.coli infection, irrespective of the timing of challenge. The bacterial number in CY-treated mice increased explosively after inoculation, resulting in death within 24 h. A progressive elimination of bacteria was observed from 6 h in the peritoneal cavity, spleen and liver of CY-treated mice given CVE-A s.c. These results indicate that CVE-A can be used as a potent stimulant of nonspecific resistance to infection in neutropenic mice.     

The influence of cyclophosphamide on antitumor immunity in mice bearing late-stage tumors

Spleen cells from mice bearing late-stage methylcholanthrene-induced tumor did not show any tumor activity when mixed with tumor cells in Winn's assay. Treatment of these mice with cyclophosphamide (CY) induced a tumor-inhibitory activity in spleen, occurring on day 7 after treatment, reaching its maximum on day 11 and disappearing by day 21. This antitumor activity could not be induced in control, tumor-free or T-deficient tumor-bearing mice. CY-induced tumor-inhibitory activity was immunologically specific, and mediated by Thy-1⁺, L3T4^–, Ly-2⁺ cells. Contrary to spleen cells from untreated tumor-bearing mice, spleen cells from CY-treated tumor-bearing mice did not suppress the antitumor activity of immune spleen cells in Winn's assay. However, in contrast to immune spleen cells, CY-induced tumor-inhibitory cells did not manifest antitumor activity when transferred systemically (i. v.) into T-cell-deficient tumor-bearing mice. Even more, spleen cells from CY-pretreated mice, harvested 7–15 days after the drug administration, partially suppressed the antitumor activity of concomitantly transferred spleen cells from specifically immune mice. Nevertheless, CY-pretreated mice manifested concomitant immunity, i.e. these mice exhibited higher resistance to a second inoculum of the same tumor than did nontreated mice or even mice with excised primary tumor.     

The 22,000-kilodalton protein of respiratory syncytial virus is a major target for Kd-restricted cytotoxic T lymphocytes from mice primed by infection.

Recombinant vaccinia viruses containing the 22-kilodalton protein (matrixlike or 22K protein) or phosphoprotein gene from respiratory syncytial virus were constructed. These recombinant viruses expressed proteins which were immunoprecipitated by appropriate respiratory syncytial virus antibodies and comigrated with authentic proteins produced by respiratory syncytial virus infection. The new recombinant viruses (and others previously described containing the attachment glycoprotein, fusion, or nucleoprotein genes of respiratory syncytial virus) were used to infect target cells for cultured polyclonal cytotoxic T lymphocytes generated from the spleens of BALB/c or DBA/2 mice primed by intranasal infection with respiratory syncytial virus. Respiratory syncytial virus-specific cytotoxic T lymphocytes (CTL) showed strong Kd (but not Dd)-restricted recognition of the 22K protein. As previously reported, the fusion protein and nucleoprotein were both seen by CTL, but recognition of these proteins was comparatively weak. There was no detectable recognition of other respiratory syncytial virus proteins tested (including phosphoprotein). 22K protein-specific splenic memory CTL persisted for at least 11 months after infection of BALB/c mice. Priming BALB/c mice with recombinant vaccinia virus containing the 22K protein gene induced respiratory syncytial virus-specific memory CTL at lower levels than that previously reported following infection with a similar recombinant containing the fusion protein gene. These data identify the 22K protein as a major target antigen for respiratory syncytial virus-specific CTL from H-2d mice primed by respiratory syncytial virus infection.