Cellular interactions in the cytotoxic T lymphocyte response to herpes simplex virus antigens: differential antigen activation requirements for the helper T lymphocyte and cytotoxic T lymphocyte precursors

The role and induction requirements of helper T lymphocyte responses to herpes simplex virus type 1 (HSV-1) was examined. Splenocytes from mice that had been primed in vivo with infectious HSV-1 can be restimulated in vitro with live or partially UV-inactivated HSV-1 to generate high levels of herpes virus-specific cytotoxic T lymphocyte (CTL) activity. By comparison, naive splenocytes or splenocytes taken from mice primed with heat-inactivated HSV-1 failed to generate CTL after in vitro viral stimulation. In addition, infectious HSV-primed splenocytes can be rendered unresponsive to secondary in vitro restimulation by pretreatment with anti-Lyt-1 antiserum plus complement. Spleen cells were taken from mice that had been primed and restimulated in vivo with infectious HSV-1. Two days after the second priming, splenocytes were prepared and irradiated. These cells were capable of assisting in the generation of CTL to varying degrees in all of the above unresponsive populations of cells. The irradiated cells did not produce detectable levels of CTL activity when cultured alone with antigen. Also, if the irradiated splenocytes were treated with anti-Lyt-1 plus complement before their addition to cultures, all restorative activity was ablated. In contrast, irradiated splenocytes from mice that had been primed and restimulated in vivo with either heat-inactivated or UV-inactivated HSV-1 were unable to provide help to naive or helper-depleted cultures. The failure to supply helper activity appears not to involve the preferential activation of suppressor cells, as evidenced by cell mixing experiments and the addition of concentrated, antigen-stimulated spleen cell supernatant fluids to secondary anti-HSV-1 splenocyte cultures. Proliferative assays using interleukin 2- (IL 2) dependent cell lines as a measure of relative helper activity indicated that the inactivated forms of HSV-1 were incapable of effectively enlisting helper activity. These experiments therefore suggest that the observed failure of heat-inactivated or UV-inactivated HSV-1 preparations to induce anti-HSV CTL responses reflects the inability of the HSV-1-specific subset of helper T lymphocytes to recognize these forms of the antigen.     

Regulation of the cytotoxic activity of alloreactive cytotoxic T lymphocytes by helper cells and lymphokines

The cytotoxic activity of alloreactive cytotoxic T lymphocytes (CTL) was maintained and augmented by transferring cells from a 5-day mixed lymphocyte culture MLC into a host culture (HC) containing indomethacin, freshly explanted normal spleen cells, and peritoneal cells which were syngeneic to the MLC cells. The MLC cells used in the transfer experiments were generated by culturing untreated H-2b splenic responders with irradiated H-2d stimulators, or were generated by culturing Lyt-2-depleted H-2b splenic responders with irradiated H-2d stimulators. The allo-CTL were found to be derived from the donor MLC (first culture) when unfractionated MLC cells were transferred into a host (second) culture and incubated for 5 days. In contrast, the allo-CTL were derived from host culture cells when Lyt-2-depleted MLC cells were transferred and the combined cultures incubated for 5 days. In the former case, the augmentation of MLC-derived cytotoxicity did not result from nonspecific expansion of all donor T cells; instead it was mediated by lymphokine(s), distinct from IL-2, produced by helper T cells generated in host culture, which appeared to selectively expand the antigen-specific CTL or to increase the cytotoxic activity of these CTL. The helper T cells were Thy-1+, L3T4+, and Lyt-2-. These findings indicate that antigen-nonspecific help was provided by helper cells or helper factors (lymphokines) generated in the host culture, which maintained and augmented the cytotoxic activity of the fully generated allo-CTL. This helper effect was also seen in the induction of primary allo-CTL responses which could be generated with fewer stimulating cells and with a stronger cytotoxic response at different R/S ratios tested. The generation of allo-CTL in second culture following transfer of Lyt-2-depleted MLC cells to host cultures appears to have involved antigen carryover from the MLC; however, antigen carryover alone was not sufficient. It appears that in the absence of Lyt-2+ suppressor T cells, antigen-specific help might be generated in donor cultures (Lyt-2-depleted MLC) which promoted or recruited the generation of antigen-specific CTL in host culture.     

Interleukin 3 augments the murine primary cytolytic T lymphocyte response to allogeneic tumor cells

The primary anti-H-2k allospecific cytolytic T lymphocyte (CTL) response by BALB/c (H-2d) spleen cells in vitro to x-irradiated RDM4 (H-2k) tumor cells is weak. This response has been shown to be augmented by CTL helper factor (CHF), a factor present in supernatants of spleen cells cultured with Sendai virus (SC-CM). Conditioned medium from WEHI-3 cells (WEHI-CM) also contains activity that augments the BALB/c anti- RDM4 CTL response. Attempts to separate the CHF activity from interleukin 3 (IL 3), also present in WEHI-CM, were unsuccessful. Purified IL 3 was then tested, and was found to increase the BALB/c anti- RDM4 CTL response by five- to 10-fold. IL 3 is apparently the only material in WEHI-CM that is active in this assay. The response is apparently a classical CTL response because: 1) the effector cells are sensitive to monoclonal anti-Thy-1.2 antibody plus C; 2) the response is dependent on antigen stimulation, and it peaks on day 5 or 6 of culture; and 3) the effector cells are specific for H-2k targets. IL 3 must be added very early during the in vitro culture period for maximal augmentation of the response, consistent with possible action of IL 3 as a differentiation factor.     

Spleen cells from athymic mice are ineffective stimulator cells for cytotoxic responses in microcultures and in vivo

The stimulator cells for the activation of cytotoxic T lymphocyte (CTL) precursor cells were studied in vivo and in microculture systems with limiting concentrations of helper factor (interleukin-2). We found in both cases that mixtures of irradiated spleen cells from athymic and euthymic donors of different haplotypes activated CTL responses preferentially against alloantigens which were carried by the euthymic donors. This applied also if athymic and euthymic donors shared parts of the H-2 gene complex. Stimulator cells from athymic and euthymic donors activated, on the other hand, equally strong responses in microcultures which were supplemented with additional helper factor or in conventional macrocultures. This and direct cell mixing experiments showed that the ineffective stimulation by the nude spleen cells in vivo and under conditions of limiting helper factor was not mediated by active suppression. Our experiments are therefore best explained by the assumption that cytotoxic responses under conditions of limiting helper factor require a close proximity between CTL precursor cells and helper T cells. This proximity may be most efficiently provided by the receptors of the CTL precursor cells when helper T cells serve as stimulator cells. Lymph node cells were consistently inferior to spleen cells as stimulator cells, and the nylon wool nonadherent fraction of spleen cells was on the average also inferior to unfractionated spleen cells, indicating that the stimulator T cells belong to a spleen seeking and partly nylon wool adherent T-cell subpopulation or require an additional cell type for optimal stimulation.     

T-cell responses induced by the parenteral injection of antigen-modified syngeneic cells. II. Mechanisms, specificity, and cellular analysis of 2,4,6-trinitrophenol (TNP)-specific cytolytic response priming by intravenous versus subcutaneous injection with TNP-modified syngeneic cells

We have examined the underlying mechanisms accounting for the enhanced in vitro TNP-specific cytotoxic T-lymphocyte (CTL) response following the parenteral injection of syngeneic hapten-modified lymphoid cells. Augmented CTL activity noted following parenteral injection (iv vs sc) of 2,4,6-trinitrophenol-modified syngeneic spleen cells (TNP-SC) is most apparent when limiting numbers of TNP-modified stimulator cells are used in the in vitro sensitization phase. Enhanced CTL responses seen following sc and iv priming is due to distinct mechanisms. Spleen and lymph node (LN) cells from sc primed mice were found to contain significant levels of radioresistant helper activity upon coculture with either viable normal spleen cells in bulk culture or with thymocytes as the source of precursor CTLs in a limiting dilution assay. The helper activity was found to be mediated by a Lyt 1+2- T cells. In addition, Lyt 2-depleted spleen and LN cells from sc primed BALB/c mice could restore the ability of tolerant spleen cells from 2,4,6-trinitrobenzenesulfonic acid (TNBS)-injected BALB/c mice to generate TNP-specific CTLs. Conversely, Lyt 2-depleted spleen and LN cells from iv primed mice provided no measurable helper activity either in bulk culture or in the limiting dilution assay and did not restore the ability of TNBS-tolerant BALB/c spleen cells to generate TNP-specific CTLs. CTL priming via the iv route was found to be completely antigen specific as iv injection of either 2,4-dinitrophenol (DNP)- or fluorescein isothiocyanatel (FITC)-modified cells caused no enhanced CTL activity. Priming via the sc route exhibited a unique specificity pattern as it was shown that sc injection of both TNP-SC and DNP-SC, but not FITC-SC, resulted in enhanced TNP-specific CTL responses. CTL T-helper (Th)-cell induction via the sc route was correlated with (1) the presence of H-2 I region determinants on the inducer cells as the sc injection of TNP-modified erythrocytes led to no enhanced CTL responses or CTL Th activity (while iv injection of TNP-erythrocytes did lead to enhanced CTL responses without detectable helper activity) and (2) the detection of both hapten-specific T-cell proliferation and Interleukin 2 (IL-2) production upon restimulation in culture. We conclude that the sc injection of TNP-SC leads preferentially to an increase of specific Lyt 1+ helper activity, while iv injection leads preferentially to an apparent expansion of Lyt 2+ prelytic effector CTLs.     

Cell surface expression of cytotoxic T lymphocyte-defined, AKR/Gross leukemia virus-associated tumor antigens by normal AKR.H-2b splenic B cells

We previously described a system in which H-2Kb-restricted C57BL/6 (B6) cytotoxic T lymphocytes (CTL) could be raised that were specific for tumors, such as the thymic lymphoma AKR.H-2b SL1, that were induced by endogenous AKR/Gross murine leukemia virus and that expressed the Gross cell surface antigen. In this study, certain normal lymphoid cells from AKR.H-2b mice were also found to express target antigens defined by such anti-AKR/Gross virus CTL. AKR.H-2b spleen, but surprisingly not thymus, cells stimulated the production of anti-AKR/Gross virus CTL when employed at either the in vivo priming phase or the in vitro restimulation phase of anti-viral CTL induction. This selective stimulation by spleen vs thymus cells was not dependent on the age of the mice over the range (3 to 28 wk) tested. Both AKR.H-2b spleen and thymus cells, however, were able to stimulate the generation of H-2-restricted B6 anti-AKR minor histocompatibility (H) antigen-specific CTL. Thus, AKR.H-2b spleen cells appeared to display the same sets (minor H and virus-associated) of cell surface antigens recognized by CTL as the AKR.H-2b SL1 tumor, whereas AKR.H-2b thymocytes were selectively missing the virus-associated target antigens, a situation analogous to that of cl. 18-5, a variant subclone of AKR.H-2b SL1 insusceptible to anti-AKR/Gross virus CTL. Like AKR.H-2b thymocytes, neither AKR spleen cells or thymocytes nor B6.GIX + thymocytes were able to stimulate the generation of anti-AKR/Gross virus CTL from primed B6 responder cell populations. In contrast, both T cell-enriched and B cell-enriched preparations derived from AKR.H-2b spleen cells were able to stimulate at the in vitro phase of induction, although B cell-enriched preparations were considerably more efficient. The discordant results obtained with AKR.H-2b spleen cells vs thymocytes were confirmed and extended in experiments in which these cells were employed as target cells to directly assess the cell surface expression of virus-associated, CTL-defined antigens. Thus, AKR.H-2b spleen cells, but not thymocytes, were recognized by anti-AKR/Gross virus CTL when fresh normal cells were tested as unlabeled competitive inhibitors, or when mitogen blasts were tested as labeled targets. Fresh or lipopolysaccharide-stimulated B cell-enriched spleen cells were as efficiently recognized as unseparated spleen cell preparations. Unexpectedly, fresh or Lens culinaris hemagglutinin-stimulated T cell-enriched spleen cell preparations, although susceptible to anti-minor H CTL, were almost as poor as targets for anti-viral CTL as were thymocytes. Together, these results demonstrate the H-2-restricted expression of CTL-defined, endogenous, AKR/Gross virus-associated target antigens by normal AKR.H-2b splenic B cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effect of herpes simplex virus types 1 and 2 on surface expression of class I major histocompatibility complex antigens on infected cells

Cytotoxic T lymphocytes (CTL) generated in C57BL/6 (H-2b) mice in response to infection with the serologically distinct herpes simplex virus type 1 (HSV-1) or type 2 (HSV-2) were cross-reactive against target cells infected with either serotype. However, HSV-2-infected cells were shown to be much less susceptible to CTL-mediated lysis, and analysis through the use of HSV-1 X HSV-2 intertypic recombinants mapped the reduced susceptibility to a region contained within 0.82 to 1.00 map units of the HSV-2 genome. The study reported here was undertaken to determine the possible reasons for the reduced susceptibility of HSV-2-infected cells to lysis by CTL. Competition for the specific lysis of labeled HSV-1-infected cells by either HSV-1- or HSV-2-infected, unlabeled inhibitor cells and frequency analysis of the CTL precursor able to recognize HSV-1- and HSV-2-infected cells suggested that the reduced susceptibility of HSV-2-infected cells to lysis could be explained, at least in part, by reduced levels of target cell recognition. A determination of the surface expression of the critical elements involved in target cell recognition by CTL following infection with HSV-1 or HSV-2 revealed that all the major HSV-specific glycoprotein species were expressed. Infection with both HSV-1 and HSV-2 caused a reduction in the expression of the class I H-2 antigens. However, this reduction was much greater following infection with HSV-2. This suggested that one important factor contributing to reduced lysis of HSV-2-infected cells may be the altered or reduced expression of the class I H-2 self-antigens.     

Abrogation of anti-Pichinde virus cytotoxic T cell memory by cyclophosphamide and restoration by coinfection or interleukin 2

Previously, we demonstrated that memory cell-mediated immune responses can be generated in Pichinde virus (PV)-primed mice after secondary challenge in vivo with homologous virus. Further, treatment of mice with cyclophosphamide (CY) before primary infection with PV abrogated the generation of H-2-restricted, virus-specific cytotoxic T lymphocytes (CTL), and rechallenge of these mice was followed by neither a primary nor a secondary CTL response. Here, we demonstrate that this CY-induced block in memory anti-PV CTL generation was not due to establishment of a persistent infection. Interestingly, this CY-induced block in memory anti-PV CTL generation was overcome by secondarily coinfecting mice with PV and lymphocytic choriomeningitis virus (LCMV) or PV and Tacaribe virus. Secondary infection with LCMV or Tacaribe virus alone did not elicit anti-PV CTL. Coinfection resulted in the generation of a PV-specific memory CTL response as judged by maximal activity on day 4 after rechallenge. Co-infection with PV and vesicular stomatitis virus, an unrelated rhabdovirus, did not efficiently restore memory anti-PV CTL responses. Memory anti-PV CTL responses were also restored when interleukin 2 (IL 2)-containing supernatants were injected i.p. after rechallenge of CY-treated mice with PV. To demonstrate that IL 2 was the responsible lymphokine in these preparations, highly purified IL 2 was added to in vitro cultures of spleen cells from CY-treated PV-primed mice. In the presence of PV-infected syngeneic macrophages, addition of purified IL 2 resulted in a dose-dependent restoration of H-2-restricted anti-PV CTL activity. The CTL precursor (CTLp) frequency of CY-treated PV-primed mice was markedly decreased from that of normal PV-primed mice. Thus, the long-lasting block in the ability to generate a PV-specific memory CTL response after CY treatment appears to be due to both a lack of helper T cell activity and a significant reduction of CTLp. However, this block may be overcome by coinfecting with viruses that cross-react at the helper T cell level or by exogenous treatment with highly purified IL 2.     

Failure or success in the restoration of virus-specific cytotoxic T lymphocyte response defects by dendritic cells

C57BL/6 (B6, H-2b) mice are CTL responders to both Sendai virus and Moloney leukemia virus. In the former response the H-2Kb class I MHC molecule is used as CTL restriction element, in the latter response the H-2Db molecule. B6 dendritic cells (DC) are superior in the presentation of Sendai virus Ag to CTL in comparison with B6 normal spleen cells. Con A blasts have even less capacity to present viral Ag than NSC, and LPS blasts show an intermediate capacity to present viral Ag. H-2Kb mutant bm1 mice do not generate a CTL response to Sendai virus, but respond to Moloney leukemia virus, as demonstrated by undetectable CTL precursors to Sendai virus and a normal CTL precursor frequency to Moloney virus. Compared to B6 mice, other H-2Kb mutant mice show decreased Sendai virus-specific CTL precursor frequencies in a hierarchy reflecting the response in bulk culture. The Sendai virus-specific CTL response defect of bm1 mice was not restored by highly potent Sendai virus-infected DC as APC for in vivo priming and/or in vitro restimulation. In mirror image to H-2Kb mutant bm1 mice, H-2Db mutant bm14 mice do not generate a CTL response to Moloney virus, but respond normally to Sendai virus. This specific CTL response defect was restored by syngeneic Moloney virus-infected DC for in vitro restimulation. This response was Kb restricted indicating that the Dbm14 molecule remained largely defective and that a dormant Kb repertoire was aroused after optimal Ag presentation by DC. In conclusion, DC very effectively present viral Ag to CTL. However, their capacity to restore MHC class I determined specific CTL response defects probably requires at least some ability of a particular MHC class I/virus combination to associate and thus form an immunogenic complex.     

The biologic effects of allogeneic effect factor on T lymphocytes. I. The mitogenic activity and the autonomous induction of cytotoxic T lymphocytes by AEF

Studies presented herein illustrate the capacity of the soluble mediator, allogeneic effect factor (AEF), which is derived from histoincompatible cell interactions, to induce the in vitro differentiation of normal murine splenic lymphocytes into mature cytotoxic cells capable of exerting activity on H-2-identical target cells. This process requires the presence of T lymphocytes during the sensitization phase, and the lytic activity on tumor cells is mediated by cytotoxic T lymphocytes (CTL). The capacity of AEF to induce differentiation of such CTL does not require the presence of stimulating target cells in the sensitization phase. The induction of CTL requires the presence of AEF at the initiation of culture, although exposure to AEF as brief as 1 hr is sufficient to induce fresh spleen cells to differentiate into CTL during the subsequent 5 days in culture. In addition to its ability to induce CTL, AEF is highly mitogenic for T lymphocytes. However, the mitogenic and the CTL-inducing activities of AEF can be experimentally dissociated, indicating that different subpopulations of T lymphocytes may be involved in the response to AEF. In contrast to similar soluble helper factors derived from allogeneic cell interactions, AEF appears to be unique in its ability to autonomously induce a primary CTL response in vitro.     

Requirement for recognition of class II molecules and processed tumor antigen for optimal generation of syngeneic tumor-specific class I-restricted CTL

The roles of Class II-restricted L3T4+ T cells and of accessory cells (AC) during the in vitro generation of Class I-restricted Lyt-2+ cytotoxic T cells (CTL) specific for a Class II-negative syngeneic tumor cell line, FBL, was examined. Treatment of responder FBL-immune spleen cells with alpha L3T4 plus complement before culture, as well as the direct addition of alpha L3T4 to cultures, diminished the generation of FBL-specific CTL. The contribution of L3T4+ cells could be completely replaced by the addition of exogenous cytokines. The data demonstrate that the optimal generation of FBL-specific Lyt-2+ CTL requires the presence of L3T4+ cells, presumably to provide necessary lymphokines. FBL-specific CTL could not be generated from purified FBL-immune T cells in the absence of AC. Syngeneic Ia+ macrophages (M phi), added at the initiation of culture, restored the response of purified T cells. Pretreatment of M phi with ammonium chloride or chloroquine, or the addition of monoclonal alpha I-Ab antibody at the initiation of culture, inhibited the ability of M phi to reconstitute the CTL response. Finally, the addition of exogenous helper factors could replace M phi and reconstitute the FBL-specific response of AC-depleted immune T cells. These results suggest that during the generation of Lyt-2+ CTL to a syngeneic tumor expressing only Class I MHC antigens, Ia+ AC are required to biochemically process antigen released from the tumor cells and present this modified antigen to Class II-restricted T helper cells.     

AKR.H-2b lymphocytes inhibit the secondary in vitro cytotoxic T-lymphocyte response of primed responder cells to AKR/Gross murine leukemia virus-induced tumor cell stimulation.

We have previously shown that AKR.H-2b congenic mice, though carrying the responder H-2b major histocompatibility complex haplotype, are unable to generate secondary cytolytic T-lymphocyte (CTL) responses specific for AKR/Gross murine leukemia virus (MuLV). Our published work has shown that this nonresponsive state is specific and not due to clonal deletion or irreversible functional inactivation of antiviral CTL precursors. In the present study, an alternative mechanism based on the presence of inhibitory AKR.H-2b cells was examined. Irradiated or mitomycin C-treated AKR.H-2b spleen cells function as in vitro stimulator cells in the generation of C57BL/6 (B6) anti-AKR/Gross virus CTL, consistent with their expression of viral antigens. In contrast, untreated viable AKR.H-2b spleen cells functioned very poorly as stimulators in vitro. Viable AKR.H-2b spleen cells were also able to cause dramatic (up to > or = 25-fold) inhibition of antiviral CTL responses stimulated in vitro by standard AKR/Gross MuLV-induced tumor cells. This inhibition was specific: AKR.H-2b modulator spleen cells did not inhibit allogeneic major histocompatibility complex-specific CTL production, even when a concurrent antiviral CTL response in the same culture well was inhibited by the modulator cells. These results and those of experiments in which either semipermeable membranes were used to separate AKR.H-2b modulator spleen cells from AKR/Gross MuLV-primed responder cells or the direct transfer of supernatants from wells where inhibition was demonstrated to wells where there was antiviral CTL responsiveness argued against a role for soluble factors as the cause of the inhibition. Rather, the inhibition was dependent on direct contact of AKR.H-2b cells in a dose-dependent manner with the responder cell population. Inhibition was shown not to be due to the ability of AKR.H-2b cells to function as unlabeled competitive target cells. Exogenous interleukin-2 added at the onset of the in vitro CTL-generating cultures partially restored the antiviral response that was decreased by AKR.H-2b spleen cells. Positive and negative cell selection studies and the development of inhibitory cell lines indicated that B lymphocytes and both CD4- CD8+ and CD4+ CD8- T lymphocytes from AKR.H-2b mice could inhibit the generation of AKR/Gross virus-specific CTL in vitro. AKR.H-2b macrophages were shown not to be required to demonstrate AKR/Gross MuLV-specific inhibition, however, confirming that the inhibition by T-cell (or B-cell)-depleted spleen populations was dependent on the enriched B-cell (T-cell) population per se.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential expression of asialo GM1 on alloreactive cytotoxic T lymphocytes and lymphokine-activated killer cells

The present study was undertaken to examine the differential expression of asialo GM1 (AsGM1) on the responding cells and effectors of alloreactive cytotoxic T lymphocytes (CTL) and lymphokine-induced activated killers (LAK). It was found that AsGM1 was expressed on the 3-day-cultured LAK effectors. Its expression gradually disappeared to the extent that AsGM1 became undetectable after 5 to 6 days of culturing. In contrast, AsGM1 was detected on 3-day CTL generated in mixed-lymphocyte cultures (bulk cultures); however, the levels of AsGM1 expression remained the same for at least 7 days. When examining the expression of AsGM1 on the responding cells, the reciprocal results were obtained. AsGM1 was expressed the LAK responders, but we were unable to demonstrate AsGM1 on CTL responders. Depletion of AsGM1+ cells from the responding population reduced subsequent CTL responses; however, CTL responses could be restored by adding conditioned media containing both interleukin 2 (IL-2) and other helper-T-cell factors and could not be restored by purified IL-2 alone adding at comparable doses. Reconstituting the AsGM1-depleted responders with Lyt-2-depleted splenocytes also restored the CTL response. Furthermore, depletion of AsGM1 cells from the responding population did not reduce the precursor frequency of allo-CTL, whereas the precursor frequency of LAK cells was reduced 42-fold. These findings show that the reduction of CTL responses after depletion of AsGM1+ cells was not due to the removal of precursors; instead, the defect appeared to be in the helper population. We further found that the helper defect was not due to impaired IL-2 production, because the endogenous production of IL-2 AsGM1-depleted responders was not reduced. Therefore, AsGM1+ cells may play a role in the helper pathway other than IL-2 production.     

Human cytotoxic T cell clones directed against herpes simplex virus-infected cells. II. Bifunctional clones with cytotoxic and virus-induced proliferative activities exhibit herpes simplex virus type 1 and 2 specific or type common reactivities

Human cytotoxic T lymphocyte (CTL) clones directed against herpes simplex virus (HSV)-infected cells were generated after stimulation of peripheral blood lymphocytes (PBL) with HSV type 1 (HSV-1) and HSV type 2 (HSV-2). These CTL clones were studied with regard to HSV type specificity and with regard to whether they also express helper cell activity. Some clones, generated after stimulation with HSV-1, were cytotoxic for autologous cells infected with either HSV-1 or HSV-2 ("HSV type common clones"), whereas other clones lysed HSV-1-infected cells only ("type-specific clones"). Similarly, after HSV-2 stimulation, both HSV-2 specific and HSV type common clones were obtained, indicating the heterogeneity of human cytotoxic T cells to HSV. All CTL clones tested were found to be bifunctional in that they also proliferated in response to stimulation with HSV. The HSV type specificity of the proliferative response was identical to that of the cytotoxic activity of the clones. An HSV type common clone, when stimulated with either HSV-1 or HSV-2, and an HSV-1 specific clone, when stimulated with HSV-1 but not with HSV-2, produced a factor, presumably interleukin 2 (IL 2), which induced proliferation of CTLL, an IL 2-dependent T cell line, providing evidence that our HSV-directed CTL clones also express helper cell activity. CTL clones that we previously reported were restricted in cytotoxic activity by HLA class II DR-1 or MB-1 antigens were found, in this study, to be restricted in proliferative response to HSV by these same HLA antigens. These results suggest that our bifunctional T cell clones directed against HSV may recognize the same viral antigenic determinants and the same HLA antigens for both cytotoxic and virus-induced proliferative activities. This is the first demonstration of human HSV type specific and HSV type common T cell clones and HSV specific T cell clones with both cytotoxic and helper cell activities.     

Helper activity in antigen-specific antibody production mediated by CD4+ human cytotoxic T cell clones directed against herpes simplex virus

Three HSV type 1 (HSV-1) and HSV type 2 (HSV-2) common ("HSV-type common") and three HSV-1 specific CTL clones, which were CD3+, CD4+, CD8-, 4B4+, and 2H4-, were established. These clones proliferated in response to stimulation with HSV in the presence of autologous APC. The HSV type specificity of the proliferative response was identical with that of the cytotoxic activity of the clones. The cytotoxic activity and the proliferative response were both inhibited by addition of anti-HLA-DR mAb to the culture. After culture of these CTL clones with autologous B cells and macrophages followed by HSV Ag stimulation, anti-HSV antibody was detected in the culture supernatant. The HSV type specificity of the helper function for antibody production was identical with that of the cytotoxicity, i.e., HSV-type common clones, upon stimulation with either HSV-1, or HSV-2, and HSV-1-specific clones, upon stimulation with HSV-1 but not with HSV-2, showed helper activity for anti-HSV antibody production by autologous B cells. Moreover, it was found that these clones produced humoral factors which help autologous B cells to produce antibody. The helper factors were produced by T cell clones in an HSV-type-specific manner. These data suggest that some CD4+ T cells can simultaneously manifest both specific cytotoxicity and helper activity for Ag-specific antibody production by B cells, and that these multifunctional T cells might play an important role in protection against viral infection.     

Analysis of Ir gene control of cytotoxic response to hapten-modified self: helper T cells specific for a sulfhydryl hapten can substitute for an anti-TNP-H-2b self helper cell defect

Helper T cells specific for N-iodoacetyl-N'-(5-sulfonic 1-naphthyl) ethylene diamine (I-AED) were generated in (C56BL/6 X C3H/He)F1 mice by immunization with I-AED-modified syngeneic cells (AED-self). The requirements for activation of hapten-induced helper cells were investigated. The results demonstrated that activation of AED and trinitrophenyl- (TNP) helper cells was strictly hapten specific. In addition, F1 AEd-helpers could be activated efficiently by either I-AED-modified H-2b or H-2k self components to enhance the anti-AED self-CTL responses. This contrasts with the previous findings demonstrating the failure of TNP-H-2b self to activate F1 TNP-helper cells. After AED-helpers were activated, they were capable of augmenting sensitization of cytotoxic T cells (CTL) against TNP-self. These results indicate that although the activation of hapten-reactive helper cells is antigen (hapten)-specific, the subsequent helper activity, as determined by augmentation of CTL responses against another hapten, is antigen nonspecific. Since helper function was antigen nonspecific, F1 AED-helper cells activated by AED-H-2b or AED-H-2k self were tested for their ability to augment the F1 and anti-TNP-H-2b CTL response. The results indicate that the Ir gene defect in the ability of F1 spleen cells to respond to TNP-H-2b self could not be corrected by these helper cells. These results are discussed in the light of Ir gene controlled differences in the activation of AED and TNP-helper cells and possible models for augmenting CTL responses against various antigens in strains that generate marginal helper activity to TNP-self.     

Thy.1lowCD3− Cells Sorted from Nylon Wool-Passed Bone Marrow Cells Can Augment the H-2 Identical but Not Non-Identical Cytotoxic T Lymphocyte Precursors in Mixed Lymphocyte Cultures

Thy. 1^lowCD3^– cells obtained from nylon wool-passed murine bone marrow (NW-BM) cells by cell sorting did not express CD4, CD8, or T cell receptor-α/β and -γ/δ on their cell surfaces. An extremely limited number of B10.BR (H-2^k) responder lymph node (LN) cells were stimulated with B10. D2 (H-2^d) stimulator spleen cells in cultures containing the minimum required dose of rat T cell growth factor (TCGF). In these cultures, the generation of cytotoxic T lymphocytes (CTL) was very low. B10.BR Thy.1^lowCD3^– NW-BM cells, added to these cultures, could augment the CTL generation vigorously, but neither B10 (H-2^b) nor B10.D2 cells could. When B10 LN cells were used as responder cells in these cultures, B10 Thy. 1^lowCD3^– NW-BM cells could augment the CTL generation, but neither B10.BR nor B10.D2 cells could. Similar findings were obtained when Lyt-2⁺ cells or Thy.1⁺ L3T4^– (CTL precursor) cells sorted from spleen cells were used as responder cells. Both elements, rat-TCGF and Thy.1^low CD3^– NW-BM cells, were essential for this augmentation of the CTL generation in this culture system because neither one alone could augment generation, and rat-TCGF could be replaced by Thy.1⁺ Lyt-2^– helper T (Th) cells sorted from spleen cells. These findings showed that NW-BM cells could augment CTL precursors in a self-major histocompatibility complex (self-MHC)-antigen restricted manner, and further that both NW-BM cells and Th cells had different and independent functions to induce CTL.     

A requirement for helper T cells in the induction of delayed-type hypersensitivity

This paper describes a model system for studying the role of helper T cells in the induction of delayed-type hypersensitivity (DTH). Cyclophosphamide- (CP) treated mice sensitized with antigen 3 days later develop high levels of delayed-type immunity; however, DTH cannot be demonstrated in mice that are sensitized with antigen 1 day after drug treatment. The inability to respond to antigen 1 day after CP treatment can be restored if either normal or low-dose primed spleen cells are transferred at the time of sensitization. Although irradiated (1500 rad) normal spleen cells are unable to restore DTH, such treatment has no effect on the primed spleen cell population. The lymphocytes responsible for restoring the DTH response were identified as T cells, in that treatment with anti-Thy-1.2 serum and C abrogated their effect. Furthermore, restoration of the DTH response was dependent on the presence of antigen at the time of lymphocyte transfer; irradiated primed cells could not transfer DTH alone. The DTH effector cells in reconstituted mice were identified as originating from the host and not from the transferred cell population. This was accomplished by using anti-H-2 serum to identify the source of the DTH effector cells after transferring parental (H-2b) irradiated primed spleen cells into CP-treated F1 mice (H-2b,k). Thus, the irradiated transferred cells are behaving as helper T cells and promoting the development of DTH effector cells in the host.     

Characterization of helper factors distinct from interleukin 2 necessary for the generation of allospecific cytolytic T lymphocytes

The in vitro generation of primary murine allospecific cytolytic T lymphocytes (CTL) from BALB/c (H-2d) spleen cell precursors in response to x-irradiated RDM4 (H-2k) tumor cells did not occur unless the cultures were supplemented with exogenous helper factors. Such CTL helper factors (CHF) could be provided by conditioned medium from cultures in which Sendai virus-immune BALB/c spleen cells were stimulated either with Sendai-infected cells (SC-CM) or with peptides cleaved by CNBr from intact virions (SP-CM). CHF activity stimulated by both antigens reached a maximum after day 3 of culture. In contrast, interleukin 2 (IL 2) activity peaked at day 2 and had essentially disappeared by day 4. Fractionation of day-4 SC-CM and SP-CM preparations by gel filtration revealed peaks of activity at apparent m.w. of 17,000 (CHF17) and 30,000 (CHF30). Under certain conditions, a peak of CHF activity appeared in the void volume with an apparent m.w. of 75,000 or greater. These results indicate that CHF activity is mediated by molecules distinct from IL 2.     

Defining cytolytic T lymphocyte recognition of chemically modified self. I. Response to trinitrophenyl-H-2Kk

We used purified class I antigen incorporated into liposomes to examine the response of secondary cytolytic T lymphocytes (CTL) to chemically modified self. By generating the secondary response in the presence of T cell helper factor, the level of CTL response was limited by CTL recognition of added antigen rather than by helper cell generation of lymphokines. We found a strong secondary response against chemically modified self when spleen cells from trinitrophenyl (TNP)-primed C3H/HeJ mice were stimulated with a) TNP-modified liposomes containing H-2Kk, b) liposomes containing H-2Kk purified from TNP-modified RDM-4 (H-2k) cells, or c) liposomes containing the limited trypsin proteolysis product of H-2Kk that had been directly modified with TNP. In contrast, we were not able to generate a significant CTL response with unmodified H-2Kk incorporated into vesicles along with TNP-modified membrane components lacking H-2Kk. These results suggest that TNP-modified H-2Kk is a major antigenic site recognized by CTL from C3H/HeJ mice after priming against TNP-modified self.