Importance of suppressor T cells in cyclophosphamide-induced tolerance to the non-H-2-encoded alloantigens. Is mixed chimerism really required in maintaining a skin allograft tolerance?

Mechanisms of cyclophosphamide (CP)-induced tolerance were studied. When AKR/J Sea (AKR: H-2k) mice were primed i.v. with 5 x 10(7) spleen cells plus 1 x 10(7) bone marrow cells from [C57BL/6 Slc (B6; H-2b) x C3H/He Slc (C3H; H-2k)]F1 (B6C3F1) mice and treated i.p. with 200 mg/kg CP 2 days later, the survival of C3H skin was moderately prolonged, but the survival of either B6 or B6C3F1 skin was not prolonged. By this treatment, however, mixed chimerism of B6C3F1 cells in the AKR mice was not established. When C3H cells were used as the tolerogen, a minimal degree of mixed chimerism associated with profound tolerance to C3H skin was established. Similar results were observed in various donor-recipient combinations. When C3H skin was grafted in the AKR mice 12 wk after the treatment with C3H cells and CP, or B6C3F1 cells and CP, survival of the grafted C3H skin was prolonged remarkably or moderately, respectively, although mixed chimerism was not detectable at the timing of grafting in either of the groups. In this late stage of tolerance, a strong level of tolerogen-specific suppressor cell activity was observed in those tolerant AKR mice. The suppressor activity was mainly attributable to T cells. These results suggest that the role of Ts cells in order to maintain skin tolerance is important in our CP-induced tolerance system, especially in the late stage of tolerance. Moreover, the generation of the Ts cells does not necessarily require the establishment of a long term mixed chimeric state.     

Leucyl-leucine methyl ester treatment of donor cells permits establishment of immunocompetent parent----F1 chimeras that are selectively tolerant of host alloantigens

Treatment of murine lymphocytes with L-leucyl-L-leucine methyl ester (Leu-Leu-OMe) selectively removes natural killer cells, cytotoxic T lymphocyte precursors, and the capacity to cause lethal graft-vs-host disease, whereas bone marrow stem cell function and alloantigen-induced L3T4+ T helper function remains intact. The present studies assess the immunocompetence of allogeneic bone marrow chimeras established by reconstituting irradiated (C57BL/6 X DBA/2)F1 (B6D2F1) mice with Leu-Leu-OMe-treated C57BL/6 (B6) bone marrow and spleen cells. Spleen cells from such chimeras were found to have normal B and T cell mitogenic responses. Furthermore, levels of natural-killer cell function were comparable to those observed in B6----B6 syngeneic radiation chimeras established without Leu-Leu-OMe treatment of donor cells. Spleen cells from B6----B6D2F1 mice were identical with B6----B6 or B6 mice in allostimulatory capacity and thus contained no discernible cells of non-H-2b phenotype. Whereas B6----B6D2F1 spleen cells demonstrated alloproliferative and allocytotoxic responses toward H-2k bearing spleen cells, no H-2d specific proliferative or cytotoxic responses could be elicited. B6----B6D2F1 spleen cells did not suppress the generation of anti-H-2d or anti-H-2k proliferative or cytotoxic responses from control B6 spleen cells. Furthermore, addition of rat concanavalin A supernatants did not reconstitute anti-H-2d responses of B6----B6D2F1 chimeric spleen cells. Thus, Leu-Leu-OMe treatment of B6 donor cells not only prevents lethal graft-vs-host disease, but also permits establishment of long-lived parent----F1 chimeras that are selectively tolerant of host H-2 disparate alloantigens, but fully immunocompetent with respect to natural killer cell function, B and T cell mitogenesis, and anti-third party alloresponsiveness.     

T cell responses to alloantigens. I. Studies of in vivo and in vitro immunologic memory and suppression by limit dilution analysis

A limit dilution technique was used to study the frequency of cytotoxic T cell precursors (f pre Tc) in the peripheral blood lymphocytes (pbl) of naive and alloimunized mice. It was found that alloimmune mice showed a 2- to 5-fold specific increase in the f pre Tc reactive to the immunizing alloantigens. This technique was further adapted for use as a sensitive in vitro assay for alloantigen-specific suppressor T cells. It was found that nonimmunosuppressed B6AF1 mice bearing surviving B10.BR cardiac allografts had circulating alloantigen-specific suppressor cells. In vitro it was shown that the culture of heat-inactivated B10.D2 spleen cells with B6AF1 spleen cells gave rise to alloantigen-specific B6AF1 suppressor cells.     

Functional characteristics of a Ficoll-separated mouse bone marrow cell population involved in skin allograft prolongation

Treatment of recipient mice with donor bone marrow cells and anti-lymphocyte serum (ALS) results in extensive skin graft prolongation beyond that achieved in animals given only ALS. In this study, B6AF1 recipient mice were grafted with C3H/He skin on day 0, treated with ALS on days -1 and +2 and infused on day +7 with donor strain (C3H/He) bone marrow cells. Extensive graft prolongation was achieved either with 25 X 10(6) whole bone marrow cells or with 1 X 10(6) lymphoid-like cells derived from donor marrow that sediment at a rate of 3 mm/hr in a 2 to 4% Ficoll gradient at unit gravity. These allograft-prolonging lymphoid-like cells appear not to be CFUs cells, have suppressive activity in in vitro MLC assays, and contain both nylon wool adherent and non-adherent cells. These studies thus show that allograft promoting cells can be isolated from bone marrow utilizing Ficoll gradients. Functional studies suggest that 3 mm/hr sedimenting donor bone marrow suppressor cells may be involved in the induction of allograft prolongation.     

Suppressors of the graft vs graft reaction in tolerance to alloantigens

Immune response and suppressor cell activity of CBA (H-2k) mice made tolerant to allogeneic C57B1/6 (H-2b) heart graft were studied in graft-versus-graft reaction (GvGR). Intact CBA spleen cells inhibited response of (CBA X C57B1/6)F1 cells to antigenic stimulus (sheep red blood cells--SRBC), when injected together into lethally irradiated (CBA X C57B1/6)F1 mice. Spleen cells of tolerant mice were unable to decrease immune response of (CBA X C57B1/6F1 lymphocytes to SRBC and suppressed specifically the inhibition induced by intact CBA spleen cells. Spleen cells from tolerant mice were also capable of suppressing GvGR induced by CBA lymphocytes immune to C57B1/6 cells. Pretreatment of tolerant spleen cells with rabbit antithymocyte globulin and complement before adoptive transfer diminished markedly the suppression. The results obtained in the study suggest that suppression of transplantation immunity in this model is mostly due to T suppressor cells.     

Depletion of macrophages expressing I-J antigen results in efficient generation of alloreactive cytotoxic T lymphocytes

The role of suppressor macrophages (S-M phi) produced during generation of cytotoxic T lymphocytes (CTL) stimulated with allogeneic lymphocytes was investigated. Splenic CTL from C3H/He mice (H-2k) were generated by in vivo immunization and subsequent in vitro stimulation by splenic lymphocytes from C57B1/6 mice (H-2b) in mixed lymphocyte reaction (MLR). In addition to in vitro standard 51Cr release assay, the CTL activity was mainly measured in vivo using the Winn assay against EL-4 thymoma cells in B6C3F1 mice (H-2b/k). In mice injected with CTL plus EL-4 cells survival rate was 20% compared with no survival of mice treated with normal spleen cells plus EL-4 cells. The antitumor activity of the CTL was significantly increased when immunized mice were treated with a 5 mg/kg ip dose of indomethacin at the time of immunization (80% survival). Macrophages were depleted from spleen cells of immunized mice by plastic adherence or carbonyl-iron treatment, replaced with an equivalent number of M phi from normal mice, and then introduced into a 5-day MLR. When the antitumor activity of the cells isolated from this MLR was measured in the Winn assay, 90-100% survival in EL-4-bearing mice was observed. In contrast, none of the mice inoculated with EL-4 alone and 20% of the mice that received CTL obtained after alloimmunization followed by MLR in addition to EL-4 survived. These results of CTL activity were confirmed by in vitro cytotoxicity tests. When the M phi isolated from spleens of immunized mice were analyzed for I-Jk antigen expression, a 2.5-fold increase was detected, compared with splenic M phi obtained from normal C3H/He mice. In contrast, Ia and I-Ak antigen expression was equivalent in M phi isolated from normal or immunized C3H/He mice. When immune spleen cells were treated with anti-I-Jk antiserum followed by complement and then, subjected to the MLR, the antitumor activity of CTL was significantly enhanced (80% survival). However, treatment of these cells with anti-I-Ak antiserum and complement did not alter CTL activity. These data suggest that the increase of S-M phi expressing I-Jk+ antigen to be induced during alloimmunization results in suppression of allospecific CTL-generation in MLR.     

Augmentation of killer activity of murine spleen cells against allogeneic and syngeneic tumor cells by inoculation of alloantigen in vivo

After C57BL/6 (B6) mice were inoculated with BALB/c spleen cells via tail vein, kinetics of cytotoxic activities in the B6 mice against sensitizing alloantigens (H-2d) and against syngeneic antigens were investigated using, as target cells, P815 mastocytoma cells (H-2d) and B16 melanoma cells (H-2b). Cytotoxic activity against P815 in the B6 spleen cells reached a peak 3 days after alloantigen inoculation, decreased drastically on day 5 and rose again thereafter. The profile of anti-B16 cytotoxic activity was similar to that of anti-P815 activity. The cytotoxic activity against P815 was inhibited partially by cold B16, but that against B16 was not inhibited by cold P815. Surface phenotype of cytotoxic cells against P815 was Lyt2+, Thy1+, Asialo GM1+ and that of cytotoxic cells against B16 was Lyt2-, Thy1+/-, and Asialo GM1+. The results indicate that inoculation of B6 mice with allogeneic BALB/c spleen cells induce two types of cytotoxic cells; one is similar to lymphokine-activated killer (LAK) cells and the other is activated natural killer cells.     

Specific suppression of the in vitro parent anti-hybrid reaction. I. Characterization of a suppressor cell induced in hybrids by pretreatment with parent-strain spleen cells

Spleen cells from B6D2F1 hybrid mice pretreated with 5 X 10(7) B6 spleen cells iv 7 days earlier (B6-pretreated B6D2F1) exhibit a reduced capacity to stimulate the in vitro proliferative and anti-D2 CTL responses of B6 spleen cells. This inability of B6-pretreated B6D2F1 spleen cells to stimulate B6 spleen cells efficiently is due neither to the absence of stimulating cells bearing the D2 alloantigens nor to the destruction of B6 responding cells, but to the presence in the B6-pretreated B6D2F1 cell population of a suppressor mechanism, since the addition of B6-pretreated B6D2F1 spleen cells to a culture of normal B6 responding and irradiated B6D2F1-stimulating spleen cells can suppress the B6 anti-B6D2F1 response. This suppression is mediated by a nylon adherent, Thy-1-negative cell of parent-strain origin which is radioresistant at 2000 R. This suppressor cell is not induced by the injection to B6D2F1 hybrids of spleen cells from the other parent strain (D2) or an allogeneic strain (C3H). It does not suppress either the response of the other parent (D2) or an allogeneic strain (C3H) to B6D2F1 antigens, or the response of B6 cells to an allogeneic strain (C3H).     

A novel cytotoxic T-cell clone that exhibits differential modes of recognition in the proliferative and cytolytic phase

A T-cell clone (1G8-H7) cytotoxic to P815Y mastocytoma (H-2d) has been established from spleen cells of a C3H/He mouse (H-2k) primed with P815Y cells by means of in vitro stimulation with irradiated C3H.H-2o(H-2KdDk) spleen cells. The clone 1G8-H7 was an interleukin 2 (IL-2)-dependent and H-2Kd antigen-dependent CTL clone and it killed P815Y cells but not Concanavalin A-induced spleen blast cells bearing H-2Kd antigen. The involvement of H-2Kd antigen in the cytolytic recognition mechanism was shown by the inhibition of lysis by anti-H-2Kd monoclonal antibody and also by the cold inhibition experiment that employed H-2Kd-bearing spleen cells. Comparison of cytotoxic activities between 1G8-H7 and Kd-specific CTL clones showed that the killing of P815Y cells by clone 1G8-H7 was not explained by the susceptibility to cell-mediated cytolysis of P815Y cells. These results suggest that H-2Kd antigen on the stimulating cell is sufficient to deliver a proliferation signal in the proliferative phase of this clone, but in the cytolytic phase an additional interaction with surface structure on the target cell other than that with H-2Kd antigen is required for the induction of cytolysis. Possible elucidations for the differential modes of recognition are discussed.     

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.     

Functional differentiation in the genetic control of murine T lymphocyte responses to human fibrinopeptide B

The ability to generate proliferative and helper T lymphocyte responses in mice was compared by using the 14 amino acid peptide, human fibrinopeptide B (hFPB). Lymph node or peritoneal exudate T cells from mice immunized with hFPB were assessed for in vitro proliferation to soluble hFPB as determined by the uptake of 3H-thymidine. The T cell proliferative response to hFPB was found to be under MHC-linked Ir gene control; mice possessing the H-2a,k haplotypes were responders, whereas H-2b,d,q,s mice were nonresponders. The influence of non-H-2 genes on these responses was not investigated, so exclusive regulation by H-2 is provisional. The absence of a detectable lymph node and peritoneal exudate T cell proliferative response persisted in H-2b,d,q,s mice after immunization and boosting with several doses of hFPB. In addition, the capacity to produce a T cell proliferative response was inherited in an autosomal dominant manner and gene(s) controlling responsiveness to hFPB mapped to the I-A subregion of the H-2 complex. To measure peptide-specific helper T cell activity, an in vitro microculture assay in which hFPB-primed lymph node T cells and normal spleen B cells and macrophages were used was developed measuring anti-fluorescein isothiocyanate (FITC) IgM and IgG plaque-forming cell (PFC) responses after culture with FITC-conjugated peptide. Immunization of B10.BR, C57BL/10, B10.D2, and B6AF mice with hFPB primed for significant helper T cell activity as assessed by the ability to augment a primary in vitro IgM response to FITC. The normal B cell IgM responses were completely dependent on hFPB-primed T cells and required that hapten (FITC) and carrier (peptide) be linked. In addition, immunization with FITC-conjugated peptide elicited positive in vivo PFC responses to FITC in B10.BR and C57BL/10 mice, indicating similar genetic control of helper activity in both the intact animals and the in vitro microcultures. Thus, B10.BR mice show both T help and T proliferative responses to hFPB, whereas C57BL/10 mice show only T help and no T proliferative responses. In contrast to B10.BR mice, C3H and CBA mice immunized with hFPB were completely unresponsive when assayed for helper T cell activity in vitro despite their ability to generate positive lymph node T cell proliferative responses. These results indicate responsiveness to hFPB by T helper and proliferating cells is different and is under separate genetic control.     

Keratinocytes synthesize Ia antigen in acute cutaneous graft-vs-host disease

Keratinocytes express la antigen (Ia) during cutaneous graft-vs-host disease (GVHD); it is, however, unclear whether this Ia is adsorbed from alloactivated donor lymphocytes or from Ia-bearing host Langerhans cells (LC), or whether it is actively synthesized by host keratinocytes. We therefore sought to determine the origin of keratinocyte Ia in a murine model of GVHD. Lethally irradiated C3H/He (H-2k) mice developed characteristic histopathologic changes of acute cutaneous GVHD 7 days after injection of BALB/c (H-2d) bone marrow and spleen cells, and expressed keratinocyte Ia of host (Iak) but not donor (Iad) origin in immunofluorescence studies. To determine whether the Ia was synthesized by keratinocytes or adsorbed from host LC, we investigated GVHD that was induced in chimeric mice. Parental strain A mice were made chimeric by lethal irradiation and reconstitution with (A X B)F1 bone marrow cells as follows: (BALB/c X C3H/He)F1 (H-2d,k) leads to C3H/He (H-2k), B6C3F1 (H-2b,k) leads to C57BL/6 (H-2b), and B6C3F1 (H-2b,k) leads to C3H/He (H-2k). After 3 mo, the LC in the skin of these chimeric mice were mainly of F1 haplotype. The chimeric mice were again lethally irradiated and injected with marrow and spleen cells from a third strain of mouse (C57BL/6, H-2b or BALB/c, H-2d) histoincompatible with both F1 parental strains. In the ensuing GVHD, the chimeric recipients only expressed keratinocyte Ia syngeneic to the original haplotype of the animal (strain A), despite the fact that the majority of their LC were derived from F1 marrow and expressed Ia of both F1 parental strain haplotypes (strains A and B). Together, these findings indicate that keratinocyte Ia in GVHD is synthesized by keratinocytes and is not derived from donor lymphocytes or adsorbed from host LC.     

Tolerance induction of allo-class II H-2 antigen-reactive L3T4+ helper T cells and prolonged survival of the corresponding class II H-2-disparate skin graft

The present study investigates the effects of i.v. presensitization with class II H-2-disparate allogeneic cells on various L3T4+ T cell functions including the capability of rejecting the corresponding allogeneic skin graft. C57BL/6 (B6) mice were i.v. presensitized with class II H-2 disparate B6-C-H-2bm12 (bm12) spleen cells. Such presensitization did not affect the bm12-specific L3T4+ T cell-mediated proliferative and interleukin 2 (IL-2)-producing capacities. A single cell suspension of (B6 x bm12)F1 spleen cells was depleted of APC by two round-passages over Sephadex G-10 columns. This APC-depleted fraction of (B6 x bm12)F1 cells failed to stimulate B6 responding cells in mixed lymphocyte reactions (MLR). The addition of recombinant IL-1 to the MLR restored anti-bm12 MLR responses, indicating that APC-depleted (B6 x bm12)F1 cells bear bm12 alloantigens but are unable to stimulate B6 anti-bm12 L3T4+ T cells. A single i.v. administration of APC-depleted (B6 x bm12)F1 cells into B6 mice resulted in almost complete abrogation of the capacity of recipient B6 lymphoid cells to give anti-bm12 MLR and IL2 production. This suppression was bm12 alloantigen-specific and attributed to the elimination or functional impairment of anti-bm12 T cell clones rather than the induction of suppressor cells. The tolerance was also observed in graft-rejection responses. The strikingly prolonged survival of bm12 skin grafts was produced when grafts were implanted into B6 mice which had been presensitized with APC-depleted, but not with untreated (B6 x bm12)F1 spleen cells. These results indicate that allo-class II H-2 antigen-reactive L3T4+ T cells are rendered tolerant by i.v. presensitization with APC-depleted fraction of the corresponding allogeneic cells.     

In vivo development of cytolytic T lymphocytes (CTL) to hapten-altered self: MIs-disparate cells facilitate the response by neutralizing IL 2 inhibitor

Inability to develop CTL in vivo to hapten-altered self can be attributed in part to an inhibitor of interleukin 2 (IL 2) that is present in the serum of normal mice. We have shown earlier that hapten-specific CTL can be generated in C3H mice (H-2k, MIsc) provided CBA/J (H-2k MIsd) spleen cells are injected simultaneously with hapten-modified syngeneic spleen cells into the hind foot paws. In efforts to determine whether serum levels of the inhibitor of IL 2 are altered as a consequence of this successful immunization method, we have compared the activity of the inhibitor in serum at intervals after the injection of syngeneic spleen cells, CBA spleen cells, or TNP-C3H spleen cells alone or together with CBA spleen cells, by using a murine IL 2-dependent, cloned cytotoxic T cell line, CT-6. The results indicate that inhibitor was neutralized optimally 48 to 72 hr after injection of TNP-C3H spleen cells mixed with CBA/J spleen cells. The order in which neutralization occurred was as follows: TNP-C3H cells + CBA/J cells greater than CBA cells greater than TNP-C3H cells greater than normal C3H spleen cells. Furthermore, supernatants from cultures of C3H lymph node cells stimulated in vivo with CBA/J cells also contained IL 2 activity. Thus, injection of CBA/J cells with TNP-modified syngeneic spleen cells produces IL 2 in vivo in sufficient quantity to neutralize the activity of the inhibitor as well as to facilitate the maturation of pre-CTL into hapten-altered self-specific CTL.     

Property of class I H-2 alloantigen-reactive Lyt-2+ helper T cell subset. Abrogation of its proliferative and IL-2-producing capacities by intravenous injection of class I H-2-disparate allogeneic cells

The present study investigates the distinctiveness of Class I H-2 alloantigen-reactive Lyt-2+ helper/proliferative T cell subset in the aspect of tolerance induction. Primary mixed lymphocyte reactions (MLR) revealed that Lyt-2+ and L3T4+ T cell subsets from C57BL/6 (B6) mice were exclusively capable of responding to class I H-2 [B6-C-H-2bm1 (bm1)]- and class II H-2 [B6-C-H-2bm12 (bm12)]-alloantigens, respectively. Anti-bm12 MLR was not affected by i.v. injection of bm12 spleen cells into recipient B6 mice. In contrast, a single i.v. administration of bm1 spleen cells into B6 mice resulted in the abrogation of the capacity of recipient B6 spleen and lymph node cells to give anti-bm1 MLR. This suppression was bm1 alloantigen-specific, since lymphoid cells from B6 mice i.v. presensitized with bm1 cells exhibited comparable anti-bm12 primary MLR to that obtained by normal B6 lymphoid cells. Such tolerance was rapidly (24 h after the i.v. injection of bm1 cells) inducible and lasting for at shortest 3 wk. Addition of lymphoid cells from anti-bm1-tolerant B6 mice to cultures of normal B6 lymphoid cells did not suppress the proliferative responses of the latter cells, indicating that the tolerance is not due to the induction of suppressor cells but attributed to the elimination or functional impairment of anti-bm1 proliferative clones. The tolerance was also demonstrated by the failure of tolerant lymphoid cells to produce IL-2. It was, however, found that anti-bm1 CTL responses were generated by tolerant lymphoid cells which were unable to induce the anti-bm1 MLR nor to produce detectable level of IL-2. These results demonstrate that class I H-2 alloantigen-reactive Lyt-2+ Th cell subset exhibits a distinct property which is expressed by neither Lyt-2+ CTL directed to class I H-2 nor L3T4+ Th cells to class II H-2 alloantigens.     

Proliferative and cytotoxic immune functions in aging mice. II. Decreased generation of specific suppressor cells in alloreactive cultures

The ability of spleen cells from aged C57BL/6 mice to generate specific suppressor cells in mixed lymphocyte cultures (MLC) against allogeneic H-2 antigens was investigated. The suppressor cells from young and old mice were assayed in parallel for their ability to inhibit the proliferative response and the generation of cytotoxicity in fresh MLC. Suppressor cell generation was found to be significantly decreased in 41% of aged mice (23 to 28 mo) as compared to young controls (3-8 mo). The suppressor cells were H-2-specific, radiation-resistant (1000 R), and Thy-1+; they did not function by lysing the fresh stimulators or responder cells, or by absorbing the interleukin 2 in the fresh cultures. Suppression required very small numbers of cells to be effective. It was concluded that the effect of aging was less marked on specific suppressor cell generation than on generation of cytotoxic T cells in the MLC. However, a third type of response studied, the proliferative response, was affected earliest and most severely.     

Cytotoxic T-lymphocyte tolerance to minor H-43a alloantigen is induced exclusively in the context of the self major histocompatibility complex class I H-2Kb molecules

We elucidated previously that cytotoxic T lymphocyte precursors (CTLp) against H-43a allo-antigen, which we had discovered as a new mouse minor H antigen, were primed in H-43b mice only in the context of self H-2Kb restriction element, and that anti-H-43a CTLp tolerance was induced in H-43b mice by injection with H-43a spleen cells (SC) from H-43 congenic mice, i.e., under the condition of disparity at only the H-43 locus. The present study attempted to determine whether the H-2Kb restriction element for anti-H-43a CTLp priming is also implicated in the induction of anti-H-43a CTLp tolerance. For this purpose, we used a newly established H-43b C3W (H-2k) strain which is H-43 congenic to H-43a C3H/HeN. When (C3W X B10.MBR)F1 (H-43b, H-2Kk/b, Ik/k, Dk/q) mice were injected with H-43a-bearing (C3H/HeN X B10.AKM)F1 (H-43a/b;H-2Kk/k,Ik/k,Dk/q)SC, their selfH-2Kb-restricted anti-H-43a CTLp were were primed (cross-priming). By contrast, injection of H-43a-bearing (C3H/HeN X B10.MBR)F1 (H-43a/b; H-2Kk/b,Ik/k, Dk/q)SC, which differ from (C3H/HeN x B10.AKM) F1 SC solely at H-2K and possess H-2Kb molecules, did not prime but specifically inactivated the anti-H-43a CTLp of (C3W x B10.MBR)F1 mice. These results indicate clearly that anti-H-43a CTLp tolerance is induced exclusively in the context of the H-2Kb element expressed on the antigenic H-43a SC.     

CD3- bone marrow cells augment the generation of cytotoxic T lymphocytes showing a preference for the X-chromosome linked gene product of stimulator cells

Responder cells, composed of both a limited number of nylon wool-passed lymph node (NW-LN) cells and an excess number of CD3+ cell-depleted bone marrow (CD3- BM) cells from the same strain of mice, were stimulated with allogeneic spleen cells in vitro. The CD3- BM cells augmented the generation of allogeneic major histocompatibility complex (MHC) class I specific cytotoxic T lymphocytes (CTL) from NW-LN cells. C3H/He (H-2k, C3H background) responder cells were stimulated with either B10.D2 (H-2d, B10 background) or BALB/c (H-2d, BALB background) spleen cells. In the former stimulation, the CTL induced lysed B10.D2 target cells more efficiently than the BALB/c cells. Furthermore, these CTL lysed more (B10.D2 x BALB/c) F1 male target cells than (BALB/c x B10.D2) F1 male. In the latter stimulation, the CTL lysed more BALB/c than B10.D2 cells, and more (BALB/c) x B10.D2) F1 male than (B10.D2 x BALB/c) F1 male. The reciprocal mixed lymphocyte cultures (MLC) were carried out, in which BALB/c responder cells were stimulated with either C3H/He or B10.BR (H-2k, B10 background) spleen cells. In the former stimulation, the CTL induced lysed more C3H/He or (C3H/He x B10.BR) F1 male target cells than B10.BR or (B10.BR x C3H/He) F1 male, and in the latter, the reciprocal results were obtained. These results suggested that the CTL induced had a preference for the X-chromosome linked gene products (Xlgp), besides the specificity for the allogeneic MHC class I, of the mice used as stimulator.     

4-Hydroxy-3-nitrophenyl (NP) acetyl-hapten specific lymphocyte proliferation. I. Mice bearing Igh-1b allotype can cross-react with 4-hydroxy-5-iodo-3-nitrophenyl (NIP) acetyl hapten

Hapten specific T cell proliferation was induced in several strains of mice. When lymph node T cells from 4-hydroxy-3-nitrophenyl acetyl-keyhole lympet hemocyanin (NP-KLH)-primed mice were stimulated in vitro with NP-polymer glutamic acid-lysine-phenyl alanine (NP-GL phi) or NP-ovalbumin (NP-OVA), they displayed a good level of proliferative responses. It was observed that NP-GL phi could induce NP-hapten specific proliferation even with NP-KLH lymphocytes from GL phi nonresponder strains. NP-KLH primed lymphocytes from C57BL/6 (H-2b, Igh-1b), CKB (H-2k, Igh-1b), CWB (H-2b, Igh-1b), and B10.BR (H-2k, Igh-1b) mice showed good proliferative responses to both 4-hydroxy-5-iodo-3-nitrophenyl (NIP) acetyl-GL phi and NIP-OVA antigens. However, NP-KLH primed lymphocytes from C3H/He (H-2k, Igh-1j) and C3H. SW (H-2b, Igh-1j) mice displayed poor proliferative responses to NIP-GL phi and NIP-OVA antigen. These results suggested that the gene coding for the NIP-cross-reaction might be mapped in the Ig heavy-chain linked locus.     

Similarity and difference in the mechanisms of neonatally induced tolerance and cyclophosphamide-induced tolerance in mice

The mechanisms of cyclophosphamide (CP)-induced tolerance were investigated by comparing with those of neonatally induced tolerance. When C3H/He Slc (C3H; H-2k, Mls-1b) mice were given i.v. either AKR/J Sea (AKR; H-2k, Mls-1a) or (AKR x C3H)F1 (AKC3F1; H-2k, Mls-1a/b) spleen cells and treated i.p. with CP 2 days later, a long-lasting skin allograft tolerance to AKR was induced in each case without any signs of graft-vs-host disease (GVHD). However, typical signs of GVHD were observed in the C3H mice neonatally tolerized with AKR spleen cells, but not in those tolerized with AKC3F1 spleen cells. The expression of TCR V beta 6, which is strongly correlated with the reactivity to Mls-1a Ag (of donor AKR origin), in the periphery was quite different between the two types of tolerant C3H mice. Namely, in the lymph nodes of the C3H mice tolerized with AKR spleen cells and CP, only CD4(+)-V beta 6+, but not CD8(+)-V beta 6+, T cells selectively disappeared, whereas both of them were abrogated in the lymph nodes of the C3H mice neonatally tolerized of AKR. By contrast, in the thymus of the two types of tolerant C3H mice, both CD4+CD8- and CD4-CD8+ single-positive thymocytes expressing TCR V beta 6 were clonally deleted, suggesting that the thymic involvement was the same in each type of tolerance. These results suggest that the preferential disappearance of the CD4(+)-V beta 6+ T cells (of host origin) and the effector T cells of GVHD (of donor origin) occurred only in the periphery of the C3H mice tolerized with AKR spleen cells plus CP and was attributable to the destruction of Ag-stimulated T cells by the CP treatment. In contrast, the intrathymic clonal deletion of immature V beta 6+ T cells was a common mechanism for both of the tolerance induction systems.