H2Kk can influence whether cytotoxic T lymphocytes recognize trinitrophenyl in association with H2Dk unique or H-2Kk and H-2Dk shared self determinants

The present study investigates the effect of trinitrophenyl- (TNP) modified H-2Kk (TNP-Kk) antigens on the generation of anti-TNP-Dk restricted cytotoxic T lymphocyte (CTL) responses. C3H.OH mice were primed to TNP-self by skin-painting with trinitrochlorobenzene, and spleen cells from these primed mice were subsequently stimulated in vitro with TNP-self. The effector cells generated exhibited appreciable lysis of TNP-modified C3H.OH blast target cells. Cold target inhibition studies demonstrated the generation of two effector cell populations: one that recognizes TNP in association with unique Dk self determinants, and one that recognizes TNP in association with self determinants shared between TNP-Kk and TNP-Dk. This was in contrast to primed C3H/He spleen cells, which did not generate CTL that recognized TNP in association with unique Dk self determinants. When spleen cells from (C3H/He x C3H.OH)F1 mice primed to TNP were stimulated in vitro with TNP-C3H.OH cells, unique Dk self determinants were recognized in association with TNP. However, in vitro stimulation of the same F1 responding cells with TNP-C3H/He or TNP-F1 cells failed to elicit CTL that utilized these Dk-unique self determinants. The findings of this study demonstrate that unique or shared H-2Dk determinants can be differentially utilized by CTL populations, depending on the H-2 alleles expressed by the stimulator cells.     

The mechanism of antigen presentation by dendritic cells and splenic adherent cells in the induction of an allogeneic cytotoxic T-lymphocyte response to H-2Kk liposomes

Induction of an allogeneic cytotoxic T-lymphocyte (CTL) response to purified alloantigen is partially dependent on uptake and processing of the class I alloantigen by antigen-presenting cells (APC) followed by recognition of the alloantigen and self Ia by helper T cells (TH). The activated TH provides the helper signal(s) to the alloantigen-specific CTL for proliferation and differentiation into an active effector CTL. The role of antigen processing and presentation of major histocompatibility complex alloantigens was examined and the ability of different types of APC to present purified H-2Kk liposomes was investigated. Splenic adherent cells (SAC), splenic dendritic cells (DC), and B-cell lymphoblastoid lines were all shown to be effective in the presentation of H-2Kk liposomes. The relative ability of these cells to serve as APC was determined to be DC greater than B-cell tumors greater than SAC. The role of processing of H-2Kk liposomes by SAC and DC was examined by investigating the effect of weak bases on pulsing of the APC. These experiments suggest that presentation of alloantigen by both SAC and DC involves a step which is sensitive to inhibition by weak bases. We examined whether the TH were activated by similar mechanisms when stimulated by the various APC. The functional involvement of the T-cell surface marker L3T4 was demonstrated in the induction of TH. In contrast, L3T4 was not involved in the subsequent generation of CTL since monoclonal antibody (MAb) specific for L3T4 was not effective in blocking CTL function in the presence of nonspecific T helper factor (THF). Similarly, Ia on the APC was shown to be involved in the stimulation of the TH pathway but not directly in the differentiation of the CTL. Thus, DC and B cells in addition to SAC can present H-2Kk to TH. The presentation of alloantigen by both cell types may involve an intracellular route as demonstrated by the blocking of the TH response by weak bases. Both Ia and L3T4 are required on the APC for induction of the TH response. The minimal requirements for activation of the CTL were H-2Kk liposomes and a source of THF.     

Regulation of the hapten-specific T cell response. I. Preferential induction of hyporesponsiveness to the D-end of the major histocompatibility complex in the hapten-specific cytotoxic T cell response

In this paper we have examined the phenomenon of hapten-specific tolerance in the cytolytic T lymphocyte (CTL), using the trinitrophenyl (TNP) and azobenzenearsonate haptens. We found that the H-2 K and H-2 D-end restricted CTL in H-2a mice are differentiable in the ease with which they are tolerized to the TNP hapten. With TNP modified syngeneic spleen cells (TNP-SC), or low amounts of trinitrobenzylsulfonic acid as tolerogen, preferential hyporesponsiveness of D-end restricted CTL can be observed. Larger doses of hapten, e.g. a higher amount of trinitrobenzylsulfonic acid, will tolerize both K- and D-end restricted TNP-specific CTL in H-2a mice. The phenomenon of preferential D-end restricted CTL hyporesponsiveness is not observed in H-2d, H-2k, or H-2b mice, nor is it observed in H-2a mice with respect to the azobenzenearsonate hapten. We have also shown that the clones of CTL responsible for lysis of TNP-modified allogeneic targets (cross-reactive lysis) in H-2a mice probably overlap with the D-end restricted TNP-specific CTL since D-end restricted hyporesponsiveness induced by intravenous injection of TNP spleen cells also results in the elimination of cross-reactive lysis of TNP-modified allogeneic targets. The possible mechanisms of preferential D-end hyporesponsiveness to the TNP hapten in the H-2a mice as well as its significance and relationship to previous work in this area are discussed in this paper.     

Tolerance to Mls-disparate cells induces suppressor T cells that act at the helper level to prevent in vivo generation of cytolytic lymphocytes to hapten-altered self

We have been examining the mechanisms that control in vivo development and down regulation of cytolytic T lymphocytes (CTL) to trinitrophenyl (TNP)-altered self antigens. In vivo generation of hapten-specific CTL requires an auxiliary antigenic stimulus, which can be provided by H-2 compatible but Mls-disparate cells. These experiments were designed to study the effect of tolerization with such Mls-disparate cells on CTL development. C3H/HeN (H-2k, Mlsc ) mice sensitized in the footpads with C3H-TNP spleen cells plus CBA/J (H-2k, Mlsd ) spleen cells develop CTL in the draining lymph nodes that will lyse 51Cr-labeled TNP-modified C3H targets. However, we have found that if C3H/HeN mice are given tolerizing doses of CBA/J spleen cells 5 to 7 days before sensitization, a splenic suppressor T cell (Ts) appears. This Ts will suppress CTL development in its tolerant host, and can be transferred adoptively to function in naive mice. Ts and its precursor are cyclophosphamide insensitive and therefore different from the naturally existing suppressor cell present in mice. When triggered by cells with Mlsd , the Ts produces a factor (TsF) that hinders helper factors from functioning in an in vitro CTL assay. Furthermore, TsF acts to prevent utilization of IL 2 by an IL 2-dependent cell line. Thus, evidence has been provided that the in vivo generation of CTL toward hapten-altered self can be down regulated at the level of helper signals by a Ts. The latter is inducible by the Mls-disparate cells that are needed at a different site to trigger the helper factors in this CTL system.     

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.     

Specificity of the mouse cytotoxic T lymphocyte response to adenovirus 5. E1A is immunodominant in H-2b, but not in H-2d or H-2k mice

The Ag specificity and MHC restriction of the CTL response to adenovirus 5 (Ad5) in three strains of mice, C57BL/10 (H-2b), BALB/c (H-2d), and C3H/HeJ (H-2k), were tested. Polyclonal Ad5-specific CTL were prepared by priming mice in vivo with live Ad5 virus followed by secondary in vitro stimulation of the spleen cells with virus-infected syngeneic cells. The Ad5-specific CTL were Db restricted in C57BL/10 and Kk restricted in C3H/HeJ. In BALB/c mice both Kd- and Dd/Ld-restricted CTL were detected. The polyclonal Ad5-specific CTL response in C57BL/10 mice is directed exclusively against the products of the E1A region, which comprises only 5% of the Ad5 genome. In BALB/c mice E1A is at best a very minor target Ag and in C3H/HeJ mice E1A is not recognized at all. Using the H-2 congenic mouse strains B10.BR (H-2k) and C3H.SW (H-2b) it was shown that the immunodominance of E1A is H-2 dependent. The 19-kDa glycoprotein encoded in the E3 region of Ad5, which binds to class I MHC in the endoplasmic reticulum and prevents its translocation to the cell surface, does not affect the specificity of the CTL response in C57BL/10 mice toward E1A. However, it affects the MHC restriction of the Ad5-specific response in BALB/c mice, selectively inhibiting generation of Kd-restricted CTL.     

Helper cells in the autologous mixed lymphocyte reaction. I. Generation of cytotoxic T cells recognizing modified self H-2

The autologous mixed lymphocyte reaction (AMLR) in mice measures the proliferative response of T cells to determinants on syngeneic non-T spleen cells. Normally, cytotoxic T lymphocytes (CTL) are not generated in this reaction. However, the addition of trinitrophenyl-modified mitomycin C-treated syngeneic T cells (TNP-Tm) to the AMLR results in the generation of TNP-specific CTL but does not alter the proliferative response. Significant cytotoxic activity is not detectable against TNP in association with Ia unless TNP is present on cells bearing those determinants. Thus, if unselected spleen cells are TNP-modified and used as stimulators in the AMLR, the proliferative response is enhanced and CTL are generated that recognize TNP in association with K, D, and I region-encoded determinants. The CTL generated in the AMLR are H-2 restricted and dependent on the presence of adherent cells in the sensitization cultures. The experiments presented here suggest that the AMLR can provide the help necessary for generating cytotoxic T cells in vitro.     

The cytolytic T lymphocyte response to trinitrophenyl-modified syngeneic cells. I. Evidence for antigen-specific helper T cells.

Mice were primed subcutaneously with trinitrophenyl (TNP)-modified syngeneic spleen cells. Seven days later, spleen cells from these in vivo primed mice, or spleen cells from naive mice, were co-cultured with TNP-modified syngeneic cells. Spleen cells from the in vivo primed mice demonstrated augmented cytolytic T lymphocyte (CTL) activity. The spleens of these in vivo primed mice contained a population of radioresistant, antigen-specific, helper T cells. Specifically, spleen cells from these mice, after x-irradiation, were able to augment the in vitro CTL response of normal spleen cells to TNP-modified syngeneic cells.     

The extent of self-MHC restriction of cytotoxic T cells in nude mice varies from mouse to mouse

There are conflicting results as to whether the response of athymic nude mice to TNP-modified self determinants is or is not H-2 restricted. We cultured spleen cells from 29 individual RNC (H-2k) nude mice with TNP-modified self determinants and tested the cultures for their ability to lyse TNP-modified self (RNC-TNP) and TNP-modified allogeneic (BALB/c-TNP) target cells. Each mouse was stimulated by two different protocols: either by the addition of TNP-modified irradiated nu/+ spleen cells or by TNP modification of the nude responder cells without addition of other cells. All mice could lyse RNC-TNP targets and about one-half could also lyse BALB/c-TNP targets, i.e., there was a 50:50 division between restricted and unrestricted responses. The magnitude of the response against RNC-TNP and whether the response was restricted were both independent of the method of stimulation. We conclude that H-2 restriction in these mice is imposed by an as yet unidentified environmental influence that can vary from one nude mouse to the next. The influence appears to act through negative selection because the modified self response is, if anything, higher in mice showing an unrestricted response.     

Preferential response patterns of cytotoxic T lymphocytes specific for fluorescein isothiocyanate-[FITC] modified autologous cells

Murine cytotoxic responses to TNP-modified syngeneic cells (TNP-self) have been shown to exhibit preferential recognition of K or D end self products encoded by the H-2 complex. In the present study, a number of B10 congenic and recombinant mouse strains were investigated to determine the H-2K and H-2D-restricted FTC-self CTL response patterns, and these were compared with the CTL response patterns obtained for TNP-self. The results indicate that for strains possessing the H-2k,d,h2,h4 haplotypes, respectively, preferential CTL responses were observed against FTC recognized in association with Kk over Dk, Dd over Kd, and Kk over Db. These patterns of preferential CTL responses were the same as those reported for TNP-self as well as several anti-viral CTL responses. In contrast to the results obtained in the B10.A strain, in which Kk preference was observed over Dd for TNP-self CTL, no preferential CTL response was observed when FTC was recognized in association with Kk and with Dd. In this context, it was observed that the CTL response to FTC recognized in association with Dd was particularly strong. This strong D end-associated response was shown to involve D locus products, and no evidence was obtained indicating that L locus self products were involved. These studies are discussed with respect to the possibility that different haptens can be recognized by CTL in association with different self determinants encoded by the same H-2 gene products.     

The requirements for antigen multivalency in class I antigen recognition and triggering of primed precursor cytolytic T lymphocytes

In vitro generation of a secondary cytolytic T lymphocyte (CTL) response to Class I alloantigen requires two signals: recognition of the Class I antigen by precursor CTL (Signal 1), and subsequent interaction with lymphokine(s) (Signal 2). Previous work using subcellular antigen stimulation has demonstrated that the required lymphokine(s) is produced as a result of adherent cell uptake, processing, and Ia-restricted presentation of alloantigen to helper T cells. This pathway could be bypassed by addition to the cultures of supernatant from Con A-stimulated rat spleen cells. When an optimal level of lymphokine(s) is provided by addition of Con A supernatant, the magnitude of the CTL response obtained is dependent on the effectiveness of alloantigen recognition and triggering of the primed precursor CTL (pCTL). By using this approach, we examined the cellular and molecular requirements for generation of Signal 1. Previous results had indicated that pCTL were able to directly recognize subcellular antigen, and that cellular presentation of the antigen to pCTL was not required. Further evidence for this was provided by the finding that pulsing of the responder population for short times with liposomes containing purified H-2Kk resulted in effective stimulation of the response. Exposure of cells to antigen for 1 to 2 hr at 4 degrees C generated responses of comparable magnitude to those obtained when antigen was continuously present in the cultures. Experiments were also done to directly examine the ability of alloantigen-pulsed splenic adherent cells (SAC) to deliver Signal 1. Although the antigen-pulsed SAC were very effective in presenting to helper T cells to result in factor production, they were found to be very ineffective in providing Signal 1 to the pCTL. Having obtained strong evidence for triggering of pCTL occurring via direct recognition of the subcellular alloantigen, we then examined the role of antigen multivalency in recognition and triggering. Purified H-2Kk was prepared in a variety of forms of differing multivalency, ranging from monovalent papain cleavage product to large, highly multivalent liposomes and plasma membranes. The magnitude of the CTL responses obtained was found to be critically dependent on the multivalency of the antigen preparation. Examination of the antigen dose-response curves and maximal responses obtained suggests that valency of the antigen may be important both in determining the avidity of interaction between the pCTL and the antigen-bearing structure, and in determining the extent to which localized receptor cross-linking occurs on the cell surface to result in triggering.     

Effects of hapten epitope structure and hapten-self conjugation pattern on T cell specificity and Ir gene control in hapten-self cytotoxic and helper T cell responses

Mouse strains of H-2b haplotype exhibit much weaker cytotoxic T lymphocyte (CTL) responses to haptens reactive with amino groups of cell surface (NH2-reactive haptens) compared with H-2k strains. However, H-2b strains can generate high CTL responses to haptens reactive with sulfhydryl groups of cell surface (SH-reactive haptens). The present study investigates the role of haptenic structure and hapten-cell surface reaction patterns in influencing the generation of the T cell specificity as well as the H-2-linked genetic control. CTL and helper T cell responses were generated against two structurally related haptens, N-iodoacetyl-N'-(5-sulfonic-1-naphthyl) ethylene-diamine (SH-reactive AEDANS; AED-SH) and 5-sulfo-1-naphthoxy acetic acid N-hydroxysuccinimide ester (NH2-reactive form of AEDANS; AED-NH2) by immunizing C57BL/6N (H-2b) mice with these hapten-modified syngeneic spleen cells. Spleen cells from primed C57BL/6N mice generated strong CTL and helper T cell activities upon in vitro restimulation with the respective hapten-modified self. The generation of potent anti-AED-NH2 CTL and helper T cell responses in C57BL/6N mice sharply contrasted with the failure of NH2-reactive haptens studied thus far to generate strong anti-hapten cytotoxic responses in H-2b mice. Antibodies induced against the above two haptens exhibited extensive cross-reactivity detected by hemagglutination, whereas CTL and helper T cells clearly discriminated the structural difference between AED-NH2 and AED-SH haptens. The hapten specificity in T cell recognition was also observed between AED-NH2 and trinitrophenyl (TNP) haptens, which were demonstrated to functionally modify similar cell surface sites. These results indicate that hapten epitope structure and hapten-cell membrane conjugation patterns influence the generation of H-2-linked genetic control and T cell specificity in anti-hapten self cytotoxic as well as helper T cell responses.     

Helper T cells against tumor-associated antigens (TAA): preferential induction of helper T cell activities involved in anti-TAA cytotoxic T lymphocyte and antibody responses

This study establishes assay systems for helper T cell activities assisting cytotoxic T lymphocyte (CTL) and antibody responses to tumor-associated antigens (TAA) and demonstrates the existence of TAA that induce preferentially anti-TAA CTL helper and B cell helper T cell activities in two syngeneic tumor models. C3H/HeN mice were immunized to the syngeneic X5563 plasmacytoma or MH134 hepatoma. Spleen cells from these mice were tested for anti-TAA helper T cell activity capable of augmenting anti-trinitrophenyl(TNP) CTL and anti-TNP antibody responses from anti-TNP CTL and B cell precursors (responding cells) by stimulation with TNP-modified X5563 or MH134 tumor cells. The results demonstrate that cultures of responding cells plus 85OR X-irradiated tumor-immunized spleen cells (helper cells) failed to enhance anti-TNP CTL or antibody responses when in vitro stimulation was provided by either unmodified tumor cells or TNP-modified syngeneic spleen cells (TNP-self). In contrast, these cultures resulted in appreciable augmentation of anti-TNP CTL or antibody response when stimulated by TNP-modified tumor cells. Such anti-TAA helper activities were revealed to be Lyt-1+2- T cell mediated and TAA specific. Most interestingly, immunization with X5563 tumor cells resulted in anti-TAA helper T cell activity involved in CTL, but not in antibody responses. Conversely, TAA of MH134 tumor cells induced selective generation of anti-TAA helper T cell activity responsible for antibody response. These results indicate that there exists the qualitative TAA-heterogeneity as evidenced by the preferential induction of anti-TAA CTL- and B cell-helper T cell activities. The results are discussed in the light of cellular mechanisms underlying the preferential anti-TAA immune responses, and the interrelationship between various types of cell functions including CTL- and B cell-help.     

Fine mapping of an H-2Kk restricted cytotoxic T lymphocyte epitope in SV40 T antigen by using in-frame deletion mutants and a synthetic peptide

The CTL response to SV40 in C3H/HeJ mice is directed against the tumor (T) Ag and is H-2Kk restricted. CTL specific for both the amino terminus (residues 1-271) and the carboxyl terminus (residues 512-708) of the T Ag molecule have been detected, and we have previously cloned CTL of both specificities. In this paper we show that the panel of 10 CTL clones specific for the C-terminal region includes clones specific for three different epitopes, termed C1, C2, and C3. Epitopes C1 and C2 are conserved in the T Ag of the related papova viruses BK and SA12, and only epitopes C2 and C3 are present on SV40 transformed targets bearing the Kk mutant Kkml. Epitopes C1 and C2 were mapped to residues 563-576 by using in-frame deletion mutants of SV40 T antigen, and all clones specific for these two epitopes can lyse Kk bearing target cells in the presence of a synthetic peptide comprising residues 559-576. Kk and Kkml differ at residue 152, which is located in the Ag-binding pocket. Because epitopes C1 and C2 can be formed by the same antigenic peptide, but epitope C1 is not present on SV40 transformed Kkml cells, epitopes C1 and C2 must differ in the contribution made by residue 152 of the MHC class I molecule. These data show that CTL epitopes on transformed cells can be made up of Ag fragments, and strengthen the idea that this is a general phenomenon for both class I and class II restricted T cell epitopes.     

Ongoing hapten-specific delayed-type hypersensitivity prevents generation of cytolytic T lymphocytes to the same hapten

Cytolytic T lymphocytes (CTL) specific for trinitrophenyl (TNP)-altered self antigens can be generated in vivo through the simultaneous injection of TNP-modified syngeneic spleen cells and H-2-compatible, minor histocompatibility locus (Mls)-disparate auxiliary spleen cells into the footpads of mice. The latter stimulates host helper cells to produce differentiative and proliferative signals required for the generation of CTL. Advent of this protocol allowed investigation of the initiation of two different cell-mediated immune responses, delayed-type hypersensitivity (DTH) and the generation of CTL, in the same experimental animal. Mice presensitized for CTL were able to develop DTH as well as normal controls. However, when mice were first sensitized for DTH, they were thereafter incapable of generating CTL. This effect was hapten specific, relatively long lasting, and preventable by treating mice with cyclophosphamide before sensitizing for DTH. Adoptive transfer of lymphoid cells from DTH-immune mice conferred DTH reactivity upon naive recipients but not a suppressed CTL response. Therefore, cells mediating DTH were not responsible for suppression of CTL. The mechanism for suppression has been discussed from the viewpoint of the suppressor-T-cell circuits that are known to be generated when animals are sensitized for DTH and which are susceptible to treatment with cyclophosphamide.     

Cell-mediated lympholysis of trinitrophenyl-derivatized autologous human cells: in vitro triggering by nonspecific signals.

This report describes the primary in vitro generation of human CTL that lyse TNP-derivatized autologous cells. Although in the majority of these studies, a direct cytotoxic response to the TNP-modified autologous stimulators was not achieved, in all experiments the addition of either allogeneic cells or soluble antigen triggered the generation of killer cells which destroy TNP-modified, but not unaltered, autologous targets. Fractionation of responder lymphocyte populations demonstrated that the cytotoxic activity was mediated by T cells. Killer cell specificity was tested by assaying for cytotoxicity to a variety of targets, and by blocking the cytolysis of TNP-altered autologous targets with various populations of nonradiolabeled cells. Results indicated that these CTL were cytotoxic for TNP-modified autologous cells but not unaltered autologous or TNP-modified allogeneic targets. The capacity of soluble antigen and alloantigens to facilitate the in vitro generation of altered-self reactive human CTL is not an isolated phenomenon. This "helper" effect has now been observed for the cytotoxic response to chemically modified autologous cells and MHC identical human leukemic blasts. It is possible that in vivo, similar responses to nonspecific antigenic stimuli may play a role in the maintenance of immune surveillance.     

The use of a clonal assay for cytotoxic T lymphocytes to determine the Ly phenotypes of the cytotoxic precursor and effector cells to alloantigens and trinitrophenyl-modified self antigens

Considerable controversy has arisen regarding the Ly phenotypes of cytotoxic T lymphocytes (CTL) and their precursors (CLP) to alloantigens and modified-self antigens. Although there is general agreement that all CTL and their pregenitors express the Ly2 alloantigen, the presence of the LY1 alloantigen on either CTL or CLP is debated. Clonal assays for CLP, capable of detecting single CLP in the absence of accessory cells, have recently been developed. This assay system provides a sensitive means of determining the Ly phenotypes of CLP to alloantigens or trinitrophenyl- (TNP) modified self antigens. Lymph node cells from C57BL/6 (Ly-1.2, 2.2, 3.2) or CBA (Ly-1.1, 2.1, 3.2) mice were treated with anti-Ly serum and complement (C), and the frequencies of CLP of the treated populations to alloantigens or TNP-modified self antigens were determined. We found that the number of CLP reactive to alloantigens or TNP-modified self antigens were greatly reduced after treatment with either anti-Ly-1 or anti-Ly-2 serum and C in both C57BL/6 and CBA mice. In other words, the CLP to alloantigens or TNP-modified self antigens in these 2 strains of mice are Ly 1+2+. We also found that the CTL derived from the Ly1+2+ CLP were also Ly1+2+. The significance of this finding with respect to the cytotoxic repertoire for alloantigens and modified self antigens is discussed.     

Delta 9-tetrahydrocannabinol decreases cytotoxic T lymphocyte activity to herpes simplex virus type 1-infected cells.

The purpose of this study was to examine the effect of delta 9-tetrahydrocannabinol (delta 9-THC), the major psychoactive component of marijuana, on T lymphocyte functional competence against herpes simplex virus Type 1 (HSV1) infection. Spleen cells from C3H/HeJ (H-2k) mice primed with HSV1 and exposed to delta 9-THC were examined for anti-HSV1 cytolytic T lymphocyte (CTL) activity. Flow cytometry was used to determine whether delta 9-THC altered T cytotoxic (Lyt-2+) and T helper (L3T4+) lymphocyte numbers or cell ratios. Nomarski optics microscopy was used to determine whether effector lymphocytes from drug-treated mice were able to bind to virally infected L929 (H-2k) target cells. Cytotoxicity assays demonstrated that CTL from mice exposed to delta 9-THC were deficient in anti-HSV1 cytolytic activity. delta 9-THC in vivo treatment had little effect on the number of T lymphocytes expressing the Lyt-2 or L3T4 antigens. Nomarski optics microscopy revealed that the CTL from the drug-treated mice were able to bind specifically to the HSV1-infected targets. However, delta 9-THC in vivo exposure affected CTL cytoplasmic polarization toward the virus-infected target cell. CTL granule reorientation toward the effector cell-target cell interface following cell conjugation occurred at a lower frequency in co-cultures containing CTL from drug-treated mice. These results suggest that delta 9-THC elicits dysfunction in CTL by altering effector cell-target cell postconjugation events.     

Cell-mediated immunity to herpes simplex virus: induction of cytotoxic T lymphocyte responses by viral antigens incorporated into liposomes

The immunogenicity of inactivated herpes simplex virus type 1 (HSV-1) antigens incorporated into liposomes was measured by their ability to induce secondary anti-HSV-1 specific cytotoxic T lymphocyte (CTL) responses in splenocyte cultures from virus-primed mice. Such virus-specific CTL could be induced provided the liposomes contained virus along with plasma membrane antigen of the same H-2 type as that of the virus-primed responser cells. Responses did not occur in cultures stimulated with liposomes containing only viral antigens or with a mixture of liposomes composed respectively of lipid and virus with those composed of lipid and plasma membrane proteins. Moreover F1 responder cells stimulated with liposomes composed of virus and plasma membrane protein of one of the parental haplotypes produced CTL restricted in their cytotoxicity to infected targets of the same haplotype as was used in the liposome. These results show that liposomes can be used to induce anti-HSV-1 CTL with inactivated viral antigens but recognition of both viral and H-2 antigen is required for this process to occur in vitro. The implications of our findings to the preparation of subunit vaccines against HSV-1 are briefly discussed.     

Relationship between trinitrophenyl and H-2 antigens on trinitrophenyl-modified spleen cells. I. H-2 antigens on cells treated with trinitrobenzene sulfonic acid are derivatized.

Spleen cells were treated with TNBS in order to determine if cell surface H-2 antigens are derivatized with TNP. By labeling the cell membrane of the TNP-modified cells with 125I, followed by detergent lysis and immune precipitation with anti-TNP, it was determined that no H-2 antigenic activity remained in the supernatant. Further, by the use of an antibody-induced antigen redistribution assay it was found that previous exposure to TNP-modified cells to anti-TNP in the absence of complement rendered these cells resistant to lysis by anti-H-2 in the presence of complement. Together these data indicate that at the concentration of TNBS used for modification, H-2 antigens are derivatized with TNP. However, in addition to H-2, other proteins including immunoglobulin were also derivatized with TNP. Anti-TNP cytotoxic effector cells were blocked from their cytotoxic activity by anti-TNP antiserum. These data indicate that TNP directly couples to H-2 antigens on the cell surface of TNP-modified cells and that TNP is associated with the antigenic determinant that the cytotoxic T cell recognizes.