Cell types required for H-2-restricted cytotoxic responses generated by trinitrobenzene sulfonate-modified syngeneic cells or trinitrophenyl-conjugated proteins.

Murine spleen cells were fractionated over nylon wool or Sephadex G-10 columns, and the cell types involved in the generation of trinitrophenyl (TNP)-specific, H-2 restricted (TNP-self) cytotoxic effector cells were studied from cultures stimulated with trinitrobenzene sulfonate (TNBS)-modified syngeneic cells, TNP-conjugated soluble proteins such as bovine gamma-globulin (TNP-BGG), or bovine serum albumin (TNP-BSA). Unfractionated or nylon nonadherent responding cells generated such effectors, irrespective of whether the cultures were stimulated with TNBS-modified cells or TNP-conjugated proteins. TNP-modified T lymphocytes, B lymphocytes, and phagocyte-enriched spleen cells were all capable of stimulating TNP-self effectors. TNP-self effectors. TNP-self as well as allogeneic cytotoxic responses were dependent on the presence of a radioresistant non-T cell that was removed by Sephadex G-10 fractionation and was replaced by irradiated, Thy 1.2-negative, glass adherent spleen cells, enriched in phagocytic cells. Results obtained by using glass adherent cells that were allogeneic or semi-syngeneic to the responding cells indicated that H-2 homology was not required for efficient glass adherent cell function, and that the H-2 restriction of TNP-self effectors is not determined by these glass adherent cells.     

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.     

Production and characterization of T-cell clones specific for trinitrophenyl (TNP)-modified syngeneic spleen cells (TNP-self)

Using serial antigenic challenge as the method of selection and stimulation, continuous lines of cytotoxic T-lymphocytes (CTL) directed against TNBS-modified syngeneic spleen cells (TNP-self) have been generated. Spleen cells from C3H/HeJ (H-2k) mice were primed in vitro with autologous spleen cells modified with TNBS, and subsequently cloned by limiting dilution and in soft agar in the presence of IL2. These CTL clones grew continuously in medium supplemented with IL2 and in the presence of antigen. They are antigen specific and H-2 restricted in their target cell recognition. They all express Thyl and Lyt2 surface markers. None of the clones exhibit natural killer (NK) cell activity. All CTL clones tested so far are restricted in their target cell recognition to H-2Kk-TNP and none were found to be restricted to H-2Dk-TNP. These findings demonstrate at the clonal level the H-2K/D restriction of TNP-self specific CTL. These clones provide tools that may facilitate an understanding of the development and regulation of antigen specific CTL. They may also serve as models useful towards an understanding of the mechanism of lysis by CTL.     

Cross-reactivity patterns of murine cytotoxic T lymphocytes.

Cross-reactivity of TNP-immune, virus-immune, and alloreactive murine cytotoxic thymus-derived (T_c) cells was investigated at the level of target cell lysis. Alloreactive T_c cells cross-reacted on TNP-modified and unmodified third-party targets and on syngeneic TNP-modified targets but did not cross-react on syngeneic virus-infected targets. TNP-immune T_c cells showed marked cross-reactivity on certain allogeneic targets modified by TNP (loss of H-2 restriction) and also on certain unmodified allogeneic targets but did not cross-lyse virus-infected syngeneic targets. Targets treated with TNP-Sendai virus were not lysed by TNP-immune T_c cells, but T_c cells stimulated by cells treated with TNP-Sendai virus lysed such targets readily. These results are consistent with the view that T_c-cell recognition of foreign H-2 antigens and TNP-modified self-H-2 antigens are mechanistically similar (possibly via one receptor), whereas recognition of viral plus H-2 antigens is different (possibly via two receptors).Virus-immune T_c cells ubiquitously exhibited strong cross-reactivity on syngeneic TNP-modified targets using pox-, arena-, alpha-, myxo-, and paramyxoviruses for T_c-cell induction. The lysis of virus-infected targets by virus-immune T_c cells could be inhibited by cold TNP-modified competitors, thus establishing that some individual virus-immune T_c cells could recognize both types of target cells. This genuine cross-reactivity at the effector level was not observed at the level of induction of secondary responses, since the cross-reactive subset of virus-immune memory T_c cells could not be activated by TNP-modified stimulator cells but could be activated by virus-infected stimulators. These results implied that requirements for stimulation of precursor T_c cells are sometimes different from antigenic requirements for recognition and lysis of effector T_c cells.     

Frequency and cross-reactivity od cytolytic T lymphocyte precursors reacting against male alloantigens

It is well established that cytotoxic T lymphocytes (CTL) specific for the male minor histocompatibility antigen (H-Y) are generated by restimulation in vitro of in vivo primed spleen cells from C57BL/6 (H-2b) female mice with syngeneic male spleen cells. When tested on target cells from H-2 different strains, the male-specific C57BL/6 CTL populations exhibited significant lysis of DBA/2 (H-2d), A (H-2a), but not C3H (H-2k), male and female target cells. In an attempt to document this cross-reactivity further at the clonal level, a sensitive technique of limiting dilution analysis was used to determine the specificity of C57BL/6 individual CTL precursors (CTL-P) reactive against the male antigen. The mean frequency of anti-H-Y CTL-P in spleens of primed female mice was about 1/3500. Between one-third to one-tenth of these CTL-P produced a progeny that cross-reacted with H-2d (allogeneic) female target cells. These findings were confirmed by the analysis of the reactivity pattern exhibited by male-specific CTL clones derived by limiting dilution. Of 99 clones tested, 13 were found to cross-react with female DBA/2 target cells. These results thus indicate that a relatively large proportion (greater than 10%) of H-2b CTL-P directed against the H-Y antigen cross-react with target cells expressing H-2d alloantigens in the absence of H-Y antigen.     

Specific T-cell-mediated killing of autologous lung tumour cells

The phenomenon that strong syngeneic T-cell-mediated cytotoxicity is observed if killer, stimulator, and target cells share H-2 histocompatibility antigens is called H-2 restriction. Here a syngeneic model system making use of hapten-coupled stimulator and target cells is used to explore whether H-2 restriction is absolute or not. Using TNP-coupled spleen or tumor cells as stimulator or target cells in syngeneic and allogeneic situations, it is shown that neither the induction step nor the effector step of TNP-dependent killing is H-2 restricted. By varying the experimental assay conditions more or less H-2-restricted, TNP-dependent killing can be observed. For instance, suboptimal coupling of TNP to targets may result in H-2-restricted killing. Similarly, the use of spleen cell targets as opposed to spleen blast cells or tumor cells may result in H-2-restricted lysis. In contrast optimal coupling of TNP to sensitive target cells and coupling of TNP to cells with certain H-2 haplotypes may lead to significant TNP-dependent killing which is not H-2 restricted. Since hapten-coupled cells lacking H-2 are neither stimulators nor targets these results suggest that the T-cell receptor recognizes TNP-modified H-2 antigens simply as nonself-H-2. Thus hapten coupling of syngeneic cells appears to lead to a histocompatibility antigen change similar to the situation in an allogeneic cytotoxic reaction. Experiments are presented which support this view showing that TNP-coupled and uncoupled syngeneic or allogeneic stimulator and target cells cross-react. For instance allogeneic sensitization may lead to killing on TNP-coupled targets syngeneic to the effector cells and TNP-coupled stimulator cells syngeneic to the effector cells may induce killing on uncoupled syngeneic targets. TNP-dependent cytotoxicity can therefore be envisaged as a kind of allogeneic reactivity due to modification of H-2 antigens by the TNP coupling. This conclusion may have bearing on other model systems in which syngeneic killing appears to be H-2 restricted. In support of this possibility it is shown that allogeneic sensitization may lead to priming of memory cells able to respond to minor histocompatibility antigens.     

The origin of cytotoxic T lymphocyte precursors (CTL-P): MHC-restricted and alloreactive CTL-P in the spleen during regeneration after a sublethal dose of cyclophosphamide (Cy)

The regenerating spleen 8 days after an injection of a sublethal dose (300 mg/kg) of cyclophosphamide (Cy) had a defective capacity to give rise to cytotoxic T lymphocytes (CTL) in response against allogeneic cells, whereas the cytotoxicity against 2,4,6-trinitrophenyl-(TNP) modified syngeneic cells was at the normal level. Alloresponse was first obtained 2 wk after the Cy treatment. The limiting dilution analysis showed this at the clonal level: the frequency of anti-TNP-specific CTL precursors (CTL-P) in the spleen treated with Cy 8 days previously was the same as the frequency in the normal spleen. The defective alloresponse was due to a decreased number of allospecific CTL-P that was later increasing. The regenerative capacity was not abolished by adult thymectomy or treatment of the mice with a bone marrow-seeking isotope, 89Sr, suggesting that these CTL-P are derived from Cy-resistant splenic precursors rather than from the thymus or bone marrow. These precursors have probably been under thymic education: the dominance of H-2k-restricted CTL over H-2d-restricted CTL in the response of (H-2k X H-2d)F1 mice to TNP-self is known to be influenced by the H-2 genotype of the thymus, and this dominance was also demonstrated with anti-TNP CTL derived from these F1 mice pretreated with Cy. The CTL-P in the regenerating spleen (day 8) were not hydrocortisone sensitive, and nylon wool-purified T cells from this stage had a lactate dehydrogenase (LDH) isoenzyme pattern of the mature T cell type (rather than of the thymocyte type). Thus, in these aspects the T cells of the regenerating spleen resembled normal splenic cells. These data suggest that the Cy-resistant spleen population contains cells that can give rise to CTL-P that have a defective specificity repertoire at the beginning of the regeneration, but later mature to a normally alloreactive population.     

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.     

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.     

Specificity repertoire of splenic Lyt-2+/F23+ cytotoxic lymphocyte precursors from B6 mice

As revealed by flow cytometric analysis, about 30% of nylon wool nonadherent Lyt-2+ B6 spleen cells were F23+, i.e., were stained with the monoclonal antibody F23.1 directed against an allotypic T-cell receptor determinant. The specificity repertoire of splenic Lyt-2+/F23+ cytotoxic lymphocyte precursors (CLP) from B6 mice was investigated in a limiting dilution (LD) system designed to support clonal expansion in vitro of a representative fraction of this T-cell subset: in highly purified Lyt-2+ responder cells cocultured with mitomycin-treated F23 hybridoma cells in the presence of (recombinant) interleukin 2 under LD conditions, one out of three Lyt-2+/F23+ CLP gave rise to a functional cytotoxic T lymphocyte (CTL) clone. The split-well analysis of individual CTL populations demonstrated a clear-cut segregation of the lytic reactivities toward different allogeneic Con A blast targets. A large fraction of B6-derived CTL clones (3-10%) specifically lysed fully H-2 allogeneic (H-2k, H-2d), or H-2K mutant (bm1) targets. Self-reactive and allorestricted lytic patterns were not found.     

Early development of CD8-negative and CD8-positive MHC-unrestricted cytotoxic cells induced by alloantigen inoculation in mice

Peritoneal cells (PC) in C57B1/6 (B6, H-2b) mice receiving an intraperitoneal (i.p.) injection of allogeneic BALB/c (H-2d) spleen cells demonstrated potent cytotoxic activity against syngeneic, xenogeneic, third-party allogeneic tumors as well as H-2d derived tumors. Maximum cytotoxic activity against various tumors other than H-2d derived tumor, B16 (H-2b) was elicited on day 3 post allosensitization and decreased drastically thereafter, whereas cytotoxic activity against P815 (H-2d) peaked 3 days after the inoculation and maintained the peak activity thereafter. Surface phenotype of PC responsible for the cytotoxic activity against B16 was Thy-1+/-, Lyt-2-, L3T4-, asialo GM1 (AGM1)+, and that of PC against P815 was Thy-1+, Lyt-2+ (or Lyt-2+/-), L3T4-, AGM1+. These phenotypes showed similar phenotypes to the counterparts against B16 and against P815 in spleen cells induced by intravenous inoculation of alloantigen. When mice were pretreated i.p. with anti-AGM1 antibody before the allosensitization, anti-P815 cytotoxic-activity in PC was completely diminished. Similar activity in spleen, however, was enhanced by i.v. treatment with the antibody before the i.v. inoculation of alloantigen. The data clearly demonstrate that in vivo inoculation of B6 mice with normal allogeneic cells induces "NK-like" CD8- cytotoxic cells and "anomalous" CD8+ cytotoxic cells in PC.     

Specific neonatally induced tolerance to Mls locus determinants

Neonatal injection of CBA/HT6T6 (H-2k, Mlsb) mice with adult, Mls-incompatible (CBA/J [H-2k, Mlsd] X CBA/HT6T6)F1 spleen cells results in the abrogation of cell proliferation and interleukin 2 (IL 2) production in bulk mixed lymphocyte cultures, when spleen cells from the inoculated mice are tested at 6 to 8 wk of age with stimulator cells expressing the Mlsd of the tolerizing inoculum. In limiting dilution assays, this tolerant state was manifested in a 25- to 550-fold (280-fold average) decrease in the frequency of precursors of Mlsd-responsive IL 2-producing T cells. Tolerance was specific in that the frequencies of precursors of IL 2-producing cells responding to Con A, allogeneic H-2d, and self-Ia were not affected. The observed low frequency of Mls-responsive cells was due neither to extensive chimerism resulting in the dilution of Mlsd-responsive cells by the nonresponsive F1 cells of the inoculum, nor to the action of suppressor cells. These findings indicate that neonatal injection of Mls-incompatible spleen cells produces a state of specific tolerance by a clonal deletion or inactivation mechanism. This specific tolerance supports the view that 1) the Mls locus encodes or regulates the expression of defined alloantigenic determinants and 2) Mls-incompatible responder mice have specific receptors for Mls determinants on clonally distributed IL 2-producing responder T cells.     

Activation of nonspecific killer cells by interleukin 2-containing supernatants

In the absence of specific antigen stimulation, nonspecific killer cells were induced by culturing C57BL/6 lymph node or spleen cells with interleukin 2-containing supernatants. These supernatants were obtained from stimulation of either rat spleen cells with concanavalin A or a variant of the T cell lymphoma, EL4 (H-2b) with phorbol myristic acetate. The ability of the EL4 supernatant to induce nonspecific killer cells was abrogated by absorption with an interleukin 2-dependent T cell line or by concanavalin A-stimulated spleen cell blasts, but not by lipopolysaccharide-stimulated spleen cell blasts or by a non-interleukin 2-producing EL4 line. Partially purified interleukin 2 from EL4 supernatants could also support nonspecific killer cell induction. The induction of cytolytic cells by interleukin 2 is sensitive to gamma-irradiation and has a D omicron of 120 rad. The nonspecific killer cells induced are likely cytotoxic T lymphocytes; the majority of the precursor and effector cells bear the Thy-1 alloantigen marker. These nonspecific killer cells killed a broad spectrum of target cells, including concanavalin A- and lipopolysaccharide-induced splenic blasts of syngeneic or allogeneic mice, a syngeneic tumor, and a cloned allogeneic cytotoxic T cell line. The frequency of precursors for nonspecific killer cells in C57BL/6 lymph node and spleen cells are 1/7000 and 1/12,000, respectively. Clonal analyses revealed that these nonspecific killers exhibit heterogeneity with respect to their target cell specificities. The induction of nonspecific killers by interleukin 2-containing supernatants is partially dependent on nylon wool-adherent cells; in antigen-stimulated cultures the most specific killer cells were obtained from cultures in which nylon wool-nonadherent lymph node responder cells were stimulated with nylon wool-nonadherent allogeneic splenic stimulator cells that were treated with anti-Thy-1 antibody and complement. The relevance of these findings with respect to the frequencies and fine specificities of cytotoxic T lymphocytes generated in interleukin 2-supplemented cultures is discussed.     

Expression of both I-A and I-E/C subregion antigens on accessory cells required for in vitro generation of cytotoxic T lymphocytes against alloantigens or TNBS-modified syngeneic cells

We have previously reported that radioresistant, Thy 1-negative accessory cells (SAC) are required for the in vitro generation of cytotoxic T-effector cells to allogeneic or trinitrophenyl-modified syngeneic cells. These SAC were found to provide accessory functions irrespective of whether they were syngeneic, semi-syngeneic, or allogeneic to the responding cells. To further characterize the accessory cells active in CML, the expression of Ia antigens on this functional population was assessed by pretreated SAC with anti-Ia reagents and complement and by testing the accessory cell function of these treated populations. The results of these studies demonstrated that the relevant accessory cells for allogeneic and TNP-self CTL express Ia determinants encoded by genes mapping in the I-A and I-E/C subregions. For the TNP-self CTL the accessory function of both SAC syngeneic or allogeneic to the responding and stimulating cells was specifically abrogated by treatment with anti-Ia reagents and complement.     

Continuously proliferating T killer cells specific for H-2b targets: selection and characterization.

BALB/c (H-2d) thymus-derived lymphocytes sensitized to C57BL/6 (H-2b) alloantigens have been propagated in vitro for over 9 months. These T lymphocytes are specifically cytotoxic to H-2b target cells but are stimulated to proliferate by both H-2b and H-2k spleen cells. This indicates that for these selected cells the antigen requirements for cell proliferation are different from those for cell-mediated cytotoxicity. If not continuously stimulated with allogeneic spleen cells, the cytotoxic cultures fail to divide and rapidly lose their cytotoxic activity. Allogeneic erythrocytes do not stimulate cell proliferation in "quiescent" cell cultures and allogeneic tumor cells do so only in the presence of spleen cells. However, "quiescent" cell cultures display cytotoxicity in the presence of phytohemagglutinin A as do cell cultures which have lost their cytotoxic activity although they proliferate upon allogeneic stimulation. The significance of these findings is discussed.     

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.     

Multiple cytolytic T-cell clones with distinct cross-reactivity patterns coexist in anti-self + hapten cell lines

C57BL/10 T cells sensitized with TNBS-treated syngeneic cells and maintained in culture by repeated stimulations exhibit high cytolytic activity toward syngeneic TNBS-treated target cells with marked cross-reactivity on TNBS-treated target cells from mice of independent H-2 haplotypes (ten tested). The analysis of the reactivities of 48 T-cell clones derived by limiting dilution from such T-cell populations revealed three types of cytotoxic T-cell clones: (1) clones restricted by H-2K^b + TNP without cross-reaction on TNBS-treated or untreated target cells of other tested mouse haplotypes; (2) clones that lysed H-2^b + TNP and also TNBS-treated target cells from not more than one, two or three different H-2 haplotypes; (3) clones that lysed untreated H-2^k target cells. No T-cell clone was found to exhibit the wide pattern of cross-reactivity on any TNBS-treated mouse cell, characteristic of the original T-cell populations, indicating that these were composed of individual T-cell clones specific for TNP + private or for TNP + distinct public H-2 determinants. Correlation with described serological public H-2 specificities was possible for some cytotoxic T-cell clone reactivity, but not for others. The general pattern of T-cell reactivity as revealed by clonal analysis in this study, as well as in published work, includes cross-reactions between self H-2^a + X and allogeneic H-2ⁿ + X, between self H-2^a + X and unmodified allogeneic H-2ⁿ, or between allogeneic H-2ⁿ and allogeneic H-2^m + X, and is consistent with the hypothesis that MHC-class restriction is the main rule in T-cell recognition.Abbreviations used in this paper CTL cytotoxic T lymphocyte - TNBS trinitrobenzene sulfonate - TNP trinitrophenyl - TNCB trinitrochlorobenzene - H-2 mouse major histocompatibility complex - IL-2 interleukin 2 - Con A concanavalin A - FCS fetal calf serum - SCA IL-2 containing supernatant - LPS E. coli lipopolysaccharide - X a non-H-2 conventional antigen     

T cell-mediated cytotoxicity against trinitrophenyl-modified cells: effect of glutaraldehyde treatment on the immunogenicity and antigenicity of trinitrophenyl-modified cells.

Cells treated with low concentrations of glutaraldehyde for a 10-sec interval were unable to incorporate 3H-leucine into TCA precipitable protein, respond to H-2 allogeneic cells in mixed lymphocyte reactions (MLR) and cell-mediated lympholysis (CML) assays, or display capping of cell surface immunoglobulin (Ig) with a fluoresceinated anti-Ig reagent. Such cells could stimulate and specifically block H-2 allogeneic CML activity but could not stimulate an H-2 allogeneic MLR response. Trinitrobenzenesulfonic acid (TNBS) treated spleen cells were used to sensitize syngeneic splenocytes into displaying a cytotoxic effect against trinitrophenyl (TNP)-modified target cells. Treatment of the stimulator cells with glutaraldehyde immediately after modification with TNBS did not impair their immunogenic activity. Similar treatment of TNP-modified concanavalin A-stimulated lymphoblasts that were used as inhibitors in a CML cold target competition assay allowed such cells to retain their antigenicity. Cells treated with glutaraldehyde before TNP-modification, however, were not antigenic in the cold target competition assay. These data are compatible with TNBS acting on plasma membrane molecules directly to cause cells to be antigenic and immunogenic in the CML assay rather than affecting internal cellular components.     

Human cytotoxic lymphocytes. V. Frequency and specificity of gamma delta+ cytotoxic lymphocyte precursors activated by allogeneic or autologous stimulator cells

We have investigated the frequency and specificity of gamma delta+ cytotoxic lymphocyte precursors (CLP) under limiting dilution culture conditions. E rosette separated total T cells and CD3+CD4-CD8-TCR alpha beta- double-negative (DN) T cells were cocultured with allogeneic or autologous PBMC stimulator cells, and frequencies of alloreactive and autoreactive CLP were determined after 12 to 14 days against Con A blast target cells. Freshly isolated DN cells consisting of 82.3 +/- 8.2% gamma delta+ T cells did not exert cytolytic activity against K562 or anti-TCR gamma delta mAb-producing hybridoma cells. In striking contrast to E+ cells, the vast majority of alloantigen-stimulated clonally developing DN CLP did not show specificity for stimulator-derived target cells. Thus, frequencies of alloreactive and autoreactive CLP after alloantigenic stimulation were in the range of 1/100 to 1/4800 and 1/450 to 1/5000, respectively. After coculture with autologous stimulator cells, frequencies of autoreactive and alloreactive DN CLP were 1/700 to 1/2700 and 1/1360 to 1/4500, respectively. Split culture analysis revealed that most proliferating DN colonies selected for high probability of clonality simultaneously killed both autologous and HLA-mismatched allogeneic targets. The majority of the DN cells expressed the CD3+/TCR gamma delta+ phenotype after culture, and thus were not CD2+CD3- NK cells. Taken together, our results show that 1) freshly isolated peripheral blood gamma delta+ T cells lack cytotoxic activity, and 2) most cytotoxic gamma delta+ T cells activated by autologous or allogeneic stimulator cells under limiting dilution conditions do not discriminate between autologous and allogeneic targets.     

Detection of shared H-2Kk and H-2Dk antigens that function as self determinants for cell-mediated lympholysis to trinitrophenyl-self

Spleen cells from C3H/He mice immunized in vivo to trinitrophenyl (TNP)-self were sensitized in vitro to TNP-self. These spleen cells displayed strong lysis on TNP-modified H-2D end-matched (Kd-Dk) targets as well as enhanced cytotoxicity against H-2 matched (Kk-Dk) or H-2K end-matched (Kk-Dd) target cells. Cold target-blocking studies showed that the lysis of TNP-Kd-Dk targets could be blocked by the addition of TNP-modified Kk-Dk, Kk-Dd Kk-Db, or Kd-Dk, but not by TNP-modified Kd-Dd, Kb-Db and Kq-Kq spleen cells. These results demonstrate that the lysis of TNP-Kd-Dk targets is not due to cross-reactive clones against TNP-Kd-Dd, Kb-Db or Kq-Dq antigens. Inhibition of the TNP-Kd-Dk target lysis by TNP-Kk-matched (Kk-Dd or Kk-Db) as well as TNP-Dk-matched (Kd-Dk) blockers also reveals that this target is lysed by clones directed against shared antigens between Kk-TNP and Dk-TNP, indicating that no cytotoxic response restricted for Dk-TNP only could be detected even after in vivo priming.