Stimulation of humoral immune responses to a thymic-independent antigen in mice immunosuppressed by a graft-versus-host reaction.

The immunosuppressive effect of the graft-versus-host (GVH) reaction was studied in CBA × A F₁ (CAF₁) mice which had been rendered immunologically unresponsive by the injection of parental A-strain lymphoid cells (GVH mice). When challenged with a single injection of either sheep red blood cells or Escherichia coli lipopolysaccharide (LPS), GVH mice failed to produce a significant number of plaque-forming cells (PFC) or a significant level of antibody against either the thymic-dependent or the thymic-independent antigen. Multiple challenges with SRBC also failed to stimulate a significant humoral immune response to the thymic-dependent antigen. Multiple challenges with LPS, however, resulted in the production of a significant number of LPS-specific PFC and a high titer of anti-LPS hemagglutinating antibodies. These results suggest that GVH-induced suppression of humoral immune responses is directed partly at B-cell activity and partly at the activity of helper T cells.     

Plaque-forming cells fater in vitro stimulation with theta-AKR antigen

Spleen cells of inbred mice strains carrying θ-C3H allele have been cultured in the presence of AKR thymus cells and their in vitro primary PFC response against thymic alloantigen θ-AKR was studied.The responses of a magnitude which was comparable with that obtained in previous in vivo experiments were obtained 4 days after stimulation. The strain-dependent variability of the magitude of anti-θ-AKR responses was observed in vitro. RR and C58/J spleen cells produced much more PFC than C57BL/6J and DBA/2J spleen cells. This was in agreement with previous in vivo studies on the genetic control of the anti-θ AKR responses.In the absence of AKR thymus cells, spleen cells of high responders, RR, developed in vitro PFC which released antibodies lytic to AKR thymus cells. Their number was ten-times lower than in stimulated cultures. Spleen cells of all strains tested produced also small numbers of PFC secreting antibodies against θ-identical allogenic thymus cells and even to syngenic thymus cells.     

Hybrid immune response to parental liver tissue grafts

Parental-to-F₁-hybrid liver tissue grafts in like-sex donor-recipient combinations survive indefinitely, although several F₁ recipients demonstrate an immunological response to the parental graft. Female F₁ recipients, particularly those carrying theH-2 ^b haplotype, respond vigorously to male parental liver grafts. However F₁ female responses to male parental liver tissue grafts differ substantively from the responses of parental females to syngeneic male grafts. C3H male liver grafts are rejected vigorously by F₁ females as long as the F₁ carries theH-2 ^b haplotype. These findings support previous reports of strong immunological responses to C3H H-Y antigen in female F₁ and C3H.SW animals, a response which is absent in C3H females. Female F₁ hybrids carrying theH-2 ^b haplotype do not reject grafts of B10 or B6 male liver as rapidly as do B10 or B6 parental females. This reduced F₁ response may be related to the formation of hybrid antigens and consequent alteration of the anti-H-Y response. Alternatively, cells that specifically suppress the anti-H-Y response may be present in F₁ hybrids. Factors responsible for suppression appear to be controlled by non-MHC antigens, at least in (OH x B6 or B10) F₁ hybrids.     

Genetic control of the immune response of mice to type III pneumococcal polysaccharide

BALBc mice immunized with Type III pneumococcal polysaccharide (SIII) had higher numbers of IgM plaque-forming cells (PFC) in the spleen than similarly immunized C57BL/Ks mice. The F₁ hybrids of these two strains had intermediate numbers of SIII-specific PFC. Analysis of the responses of F₂ and backcross strains indicated that the observed responses were compatible with results expected for control of the immune response to SIII at a single autosomal locus.     

The influence of a graft-versus-host reaction on the incidence of metastases after tumor transplantation

The effect of a graft-versus-host reaction (GVHR) on tumor growth is described. The tumor system used was the 3LL carcinoma, which metastasizes spontaneously after its subcutaneous inoculation. Four biweekly transfers of parental lymphoid cells into young adult (C3H × C57BL/6)F₁ mice induced a mild GVHR, manifested by splenomegaly but unaccompanied by symptoms of runting. The weight of the primary tumors and the incidence of lung metastases were both lower in such mice as compared to controls. The possibility that this anti-tumor phenomenon was due to some immunological mechanism was investigated. Indeed, we found that immune spleen cells which enhanced tumor growth when transferred into a syngeneic host were eliminated as a consequence of the GVHR.     

Elimination of suppressor T-cells in mice undergoing a graft-versus-host reaction expressed by increased response to polyvinylpyrrolidone (PVP).

Mice undergoing a mild GVHR exhibited an enhanced response to PVP considered to be independent of T-helper function and simultaneously, a decreased response to SRBC, known to be T-cell dependent. Such mice had a reduced number of T cells in their spleens expressed by a lower reactivity to T-lectins PHA and Con A and by a decrease in the number of cells killed by anti θ serum. These mice did not show, however, a substantial change in the activity of B lymphocytes contained in their spleens, since the PFC and the mitogenic response to LPS, as well as the number of immunoglobulin bearing cells were similar to that of controls. These results suggest that the enhanced response to PVP in mice undergoing a mild GVHR is a result of the elimination of a certain T-cell population which seems to regulate the immune response to this antigen.     

Role of L3T4+ and Lyt-2+ donor cells in graft-versus-host immune deficiency induced across a class I, class II, or whole H-2 difference

The i.v. injection of parental T cells into F1 hybrid mice can result in a graft-vs-host (GVH)-induced immune deficiency that is Ag nonspecific and of long duration. The effect of the GVH reaction (GVHR) on the host's immune system depends on the class of F1 MHC Ag recognized by the donor cells. To determine the role of different subsets of donor-derived T cells in the induction of GVHR, donor spleen cells were negatively selected by anti-T cell mAb and C, and the cells were injected into F1 mice that differed from the donor by both class I and II MHC Ag or by class I or class II MHC only. The induction of GVHR across class I + II differences was found to require both L3T4+ and Lyt-2+ parental cells. Induction of GVHR across a class II difference required only L3T4+ parental T cells in the combination tested [B6-into-(B6 x bm12)F1]. In contrast, B6 Lyt-2+ cells were sufficient to induce GVHR across a class I difference in (B6 x bm1)F1 recipients. In addition, a direct correlation was observed between the cell types required for GVH induction and the parental T cell phenotypes detected in the spleens of the GVH mice. The number of parental cells detected in the unirradiated F1 hosts was dependent upon the H-2 differences involved in the GVHR. Induction of a class I + class II GVHR resulted in abrogation of both TNP-self and allogeneic CTL responses. In contrast, induction of a class II GVHR resulted in only a selective loss of TNP-self but not of allogeneic CTL function. Unexpectedly, the induction of a class I GVHR also resulted in the selective loss of the TNP-self CTL response. Thus, these class I and class II examples of GVH both result in the selective abrogation of L3T4+ Th cell function. The data are discussed in terms of respective roles of killer cells and/or suppressor cells in the induction of host immune deficiency by a GVHR, and of the selective deficiency in host Th cell function induced by different classes of GVHR.     

Numbers and avidity of anti-DNP antibody plaques in different inbred mouse strains

Spleen cells of mice from eight inbred strains and three F₁ hybrids, undergoing a secondary immune response to dinitrophenylated keyhole limpet hemocyanin (DNP-KLH), were examined for numbers of indirect DNP-specific plaque forming cells (PFC) as well as avidity of anti-DNP antibodies. The results indicated that the magnitude of the immune response is under genetic control. Differences in average avidity and heterogeneity of avidity were found among different mouse strains, suggesting genetic control of these parameters. However, no simple pattern of inheritance for these characteristics emerged from the study.     

F1 hybrid resistance: Long-term systemic effects sensitive to irradiation and age

In contrast to the usual rapid growth of transplanted syngeneic marrow cells in spleens of lethally irradiated recipients, the growth of parental marrow cells from certain inbred strains of mice is resisted by their F_l hybrids, other strains or both. The full complexity of this well known natural resistance is demonstrated here by using three inbred strains and their three Fl hybrids in all parent-hybrid combinations of donor and recipient. A similar resistance to parental marrow grafts is reported here in W-anemic F₁ hybrid recipients that are cured and repopulated without irradiation. Rather than resistance to short-term growth in spleens, F₁-hybrid resistance to permanent repopulation of the entire hemopoietic system is studied here. This manifestation of hybrid resistance is radiosensitive and declines in recipients over the age of 12 months. Long-term hemopoietic repopulation is measured quantitatively by injecting mixtures of two marrow-cell types with distinguishable hemoglobins into stem-cell-deficient recipients. A very high degree of resistance is detected against WB but not 136 parental marrow when mixed with WBB6F₁ marrow and injected into WBB6F₁ recipients. Most, but not all, of this resistance to permanent, systemic repopulation is abrogated by irradiation of the recipients; it is also abrogated after they reach the age of 15 months. Mouse models of long-term hybrid resistance studied in the entire hemopoietic system may be particularly relevant for marrow transplantation in man, where the objective is long-term systemic repopulation.     

Soluble factors and the immune response: in vitro studies of the immunosuppression induced by the graft-versus-host reaction

In vitro experiments were carried out to investigate the cause(s) of the immunosuppression induced by the graft-versus-host (GVH) reaction in F₁ hybrid mice injected with parental strain lymphoid cells. A modified Marbrook culture chamber, made up of two cell compartments separated by a cell impermeable membrane, was used in these studies. Spleen cells from either normal animals (NSC) or from animals experiencing a GVH reaction (GVH-SC) were cultured with sheep red blood cells (SRBC) and the direct plaque-forming cell (PFC) response to SRBC was measured. It was found that normal thymus, lymph node and spleen cells, separated from the GVH-SC by a cell impermeable membrane, restored partially or totally the immune response of the suppressed cells, while bone marrow cells did not. It was also found that GVH-SC inhibited the PFC response to SRBC of NSC when mixed in culture at a ratio of 1:5. Conversely the inhibitory effect of GVH-SC on the immune response of NSC was abrogated when the two cell populations were separated by a cell impermeable membrane. These observations demonstrate that GVH-induced immunosuppression is caused, at least in part, by the deficiency of a T-cell derived factor which is a necessary component of the normal immune response. It is suggested that the suppressive effect of GVH-SC on the immune response of NSC is mediated by a non-T cell which regulates the release and/or production of the T-cell derived factor.     

Effect of allogeneic cell interaction and graft-versus-host reaction on the antibody response to Escherichia coli 0127 antigen.

The influence of allogeneic cell interaction and GVH reaction on the immune response to Escherichia coli antigen was investigated. Addition of CBA/J spleen cells to cultures of nu/nu spleen cells stimulated a significant increase in the nude PFC response to SRBC but had no significant effect on the immune response to E. coli antigen. Similarly, the induction of a GVH reaction in F₁ mice by the injection of parental spleen cells also had no significant effect on the immune response to the bacterial antigen. These results suggest that the immune response to E. coli is not affected by products of thymus-derived cells.     

Inhibition of erythroid cell growth by allogeneic murine lymphocytes. Evidence for a synergism between lymph node cells and thymocytes

Murine lymphoid cells from thymus and lymph nodes were tested for synergistic response in a graft-vs-host test. The test is based on the principle that allogeneic lymphocytes inhibit erythroid cell proliferation in the spleens of irradiated mice infused with syngeneic bone marrow cells.I was observed that mixtures of thymocytes and lymph node cells from the same parental strain yielded graft-vs-host responses in irradiated F₁-hybrids higher than expected by summing the responses of the two cell populations tested separately. A similar synergistic response was obtained using mixtures of thymocytes and lymph node cells obtained from the two parental strains of the hybrid, whereas such an effect was not detected using mixtures of lymph node cells or mixtures of thymocytes from the two parental strains. Nor could synergy be demonstrated between parental strain lymph node cells and thymocytes syngeneic with the bone marrow target cells. Thymocytes obtained from one parental strain which were injected into its irradiated F₁-hybrid transformed into a population of sensitized cells in the spleens of the recipients. This transformation was suppressed by the simultaneous injection of lymph node cells from the second parental strain. Since there is a synergistic immune response by such cell mixtures it is concluded that thymocytes may enhance the graft-vs-host response of lymph node cells. Parental strain thymocytes and lymph node cells, the latter being specifically immunologically tolerant to the bone marrow target cells, failed to give a synergistic response indicating that thymocytes do not transform unresponsive lymphocytes into responsive, but rather enhance the reactivity of existing, specifically responsive cells.The results thus show that thymocytes may enhance the response of lymph node cells in this specific graft-vs-host assay.     

Apparent T cell function of bone marrow cells from mice experiencing a graft-versus-host reaction.

The graft-versus-host (GVH) reaction, induced in adult F₁ mice by the injection of parental strain lymphoid cells (GVH mice), suppressed the in vitro plaque-forming cell (PFC) response to sheep erythrocytes (SRBC) of spleen cells obtained from the GVH mice (GVH-SC). In vitro restoration of the PFC response of GVH-SC was carried out employing a modified Marbrook culture chamber consisting of an inner culture compartment (IC) separated from an outer culture compartment (OC) by a cell-impermeable membrane. Thymus cells (TC) and lymph node cells (LNC) but not bone marrow cells (BMC) from normal mice placed in the IC restored the PFC response of GVH-SC cultured with SRBC in the OC. The restoring ability of TC and LNC was markedly reduced following treatment with anti-theta serum plus complement. BMC taken from GVH mice 3 or more days post-GVH induction (GVHBMC) and placed in the IC restored the PFC response of GVH-SC as well as TC and LNC. Treatment of GVH-BMC with anti-theta serum plus complement did not affect their restoring ability; furthermore, the number of theta-bearing cells in the bone marrow did not increase as a consequence of the GVH reaction. Two possible explanations are proposed for the T-like function of GVH-BMC.     

Fumonisin B1 alters sphingolipid metabolism and immune function in BALB/c mice: Immunological responses to fumonisin B1

Fumonisins have been reported to have diverse effects on animals, including immunosuppression in chickens and feeder calves; therefore, the effects of fumonisin B₁ (FB₁) on immune function in BALB/c mice was investigated. When administered i.p. with sheep red blood cells (SRBC), 5 to 100 µg of FB₁ reduced the number of plaque-forming cells (PFC) produced against SRBC; however, when administered daily, 1 to 50 µg of FB₁ caused a 4 to 12-fold increase in the number of PFC after SRBC injection. Therefore, FB₁ is not only immunosuppressive; but also, immunostimulatory. To test the possibility that there may have been an immune response to FB₁ as an antigen, FB₁ was injected into mice and the number of splenic cells forming rosettes on FB₁-treated SRBC was determined. There were dose-dependent increases in the antigen-binding cells, with up to 4.9- and 4.6-fold increases, respectively, upon primary and secondary immunization. FB₁-binding immunoglobulins could be detected in sera from some treated mice, but this response was not obtained in every experiment. In summary, these results show that FB₁ has diverse effects on the immune system, causing both stimulation and suppression of the response to foreign antigens, and apparently inducing an antigenic response to FB₁.Abbreviations DMEM Dulbecco's Modified Eagle's Medium - FB₁ fumonisin B₁ - FCS fetal calf serum - PBS phosphate buffered saline - PFC plaque forming cells - RFC rosette forming cells - SRBC sheep red blood cells     

Clonal analysis of the T lymphocytes involved in parent versus Fn1 graft-versus-host reaction

A systemic graft-versus-host reaction (GVHR) leading to 50% mortality by day 20 was elicited by the injection of CBA (10⁵) or B10 (10⁶) parental T lymphocytes into irradiated (750 rad) and bone marrow protected (CBA x B10)F₁ recipients. Between days 12 and 28 the spleens of the sick mice were analyzed by limiting dilution, performed with irradiated F₁ cells and a source of interleukin-2 (IL-2), to determine the frequency of cells with an antihost proliferative or cytolytic activity and to derive T lymphocyte clones. The frequency of cells with antihost proliferative or cytolytic activity was approximately 10^–3 in either combination. In the CBA vs F₁ GVHR, all eight clones isolated with anti-F₁ activity were Lyt-2^–, noncytolytic, mixed lymphocyte reaction (MLR) responders and IL-2 producers, three of which mapped to the A ^b locus, while in the B10 anti-F1 combination, eight of the nine anti-F₁ clones isolated were Lyt-2⁺, poor MLR responders and non-IL-2 producers, but cytolytic and mapping to K _k . These findings suggest a much higher frequency of T cells recognizing the A-locus antigens in the CBA than in the B10 strain.     

Immunological and genetic requirements for the parental hemopoietic takeover reaction in adult,H-2-incompatible parent-F1 hybrid parabiosis

Parabiosis of adult DBA/2J (H-2 ^d ) mice with adult (DBA/2J× CSH/HeJ)F₁ (H-2 ^d /H-2 ^k ) mice results in survival beyond 100 days in 44% of such pairs, induction ofin situ unresponsiveness to C3H/HeJ skin, and the complete takeover of the erythroid system of the F₁ by parental cells. However, in vitro responsiveness to C3H/HeJ cells remains. Dye exclusion cytotoxicity assays establish the absence ofF ₁ lymphoid cells in the spleens and bone marrow of both partners. The parental takeover of the erythroid system of the F₁ partner requires immune recognition of the hybrid's alloantigens, because this takeover is not seen with tolerant parental cells. PartialH-2 differences (on the C3H background) influence both survival and the takeover reaction when incorporated into parabioses with DBA/2J partners. When only theK andI subregions ofH-2 were targets of the parental response, 58% of parabionts survived, with complete parental hemopoietic takeover. When onlyH-2D was the target, 83% of parabionts survived, with incomplete hemopoietic takeover. Changing the non-H-2 background of the F₁ target did not significantly affect survival or takeover, while substituting a differentH-2 ^d parental strain (BALB/c) eliminated survival altogether.Thus the parabiont takeover reaction encompasses the lymphoid and hemopoietic systems, requires immunorecognition of the target alloantigens, and seems to require a strongH-2 difference for its induction.     

Activation or suppression of bactericidal activity of macrophages during a graft-versus-host reaction againstI-A andI-J-region differences,respectively

Systemic graft-versus-host reactions (GVHR) were induced in F₁ heterozygous mice by injecting 10⁸ parental lymphocytes. The Anti-Thy 1.2-sensitive, T-cell mediated activation of macrophages was assessed by their increased capacity to destroy a facultative intracellular bacteriumListeria monocytogenes. The difference inMHC regions causing a GVHR that induced high levels of macrophage activation mapped toI-A. In contrast, differences atK orD, in any of the otherH-2 subregions or in the non-H-2 background, includingMls alone or in combination, did not induce a GVHR leading to macrophage activation, unless these differences were combined with a difference atI-A. The numbers of parental cells needed to activate macrophages via a GVHR caused byI-A vs. non-I-A differences, varied at least 30- to 100-fold. When parental cells were injected into F₁ offspring of parents differing atI-J, growth ofListeria was enhanced significantly; this negative effect on macrophages was not seen when parental combinations differing atI-A alone were compared with those differing atI-A plusI-J orI-J plus otherH-2 regions.     

Relationship between parental chromosomic contribution and nuclear DNA content in the coffee interspecific hybrid C. pseudozanguebariae×C. liberica var ‘dewevrei’

 F₁ hybrids were obtained between two coffee species with the same chromosome number (2n=22) but with different nuclear DNA contents [C. pseudozanguebariae (PSE) 2C=1.13 pg and C. liberica var ‘dewevrei’ (DEW) 2C=1.42 pg]. G2 hybrids were obtained by open-pollination of the F₁ hybrids. Genomic in situ hybridisation (GISH) and flow cytometry were used on six F₁ hybrids and seven G2 hybrids to determine their parental chromosomic contribution and their nuclear DNA content (qDNA), respectively. GISH efficiently identified chromosomes from both species. F₁ hybrids had a qDNA intermediate between that of the parental species and contained the expected 11 chromosomes from each species. There was a linear relationship between the number of PSE chromosomes and the nuclear DNA content, which indicates that flow cytometry can be used to give a rough estimate of the parental chromosomic contribution in G2 hybrids. Received: 1 August 1997/Accepted: 25 August 1997     

Mlsa generated suppressor cells. I. Suppression is mediated by double-negative (CD3+CD5+CD4-CD8-) alpha/beta T cell receptor-bearing cells.

Grafting of cells from B10.D2 (H-2d) donors into H-2 compatible lethally irradiated (DBA/2 x B10.D2)F1 hosts results in a severe graft-vs-host reaction (GVHR), developed against DBA/2 non-H-2 Ag, with only 0 to 10% of animals surviving. This GVHR mortality rate is dramatically reduced (90 to 100% of animals survive) by donor preimmunization against Mlsa determinants. The protection against GVHR correlates with a decreased B10.D2 anti-DBA/2 proliferative response in vitro. Both in vivo and in vitro phenomena are associated with activation of CD5+ suppressor T cells in the spleens of immunized mice. The present work was designed to study the origin of these suppressor cells and to further characterize their phenotype. The results show that significant suppression is not inducible in "B" mice. In contrast, in mice that were only thymectomized or else pretreated in vivo with anti-CD4 or anti-CD8 mAb, the suppressor cells are activated as efficiently as in normal mice. The suppression of GVHR mortality and proliferative responses in vitro is lost after depletion from preimmunized splenocytes of CD5+ T cells and remains unaltered after depletion of CD4+ or CD8+ T cells or both. Depletion of asialo GM1+ cells removes all NK activity, whereas the suppression is decreased only slightly. FACS analysis showed that double-negative (DN) cells from normal and immunized mice contain both CD3+ and CD3- cells; the vast majority of the CD3+ DN T cells express the alpha/beta T cell receptor. Suppression of GVHR and of proliferative responses in vitro are abrogated after elimination of CD3+ cells. These results suggest that Mlsa generated suppressor cells: 1) are derived from post-thymic long-lived T cell precursors; 2) are low asialo GM-1+ but do not exhibit NK activity; 3) belong to a subset of peripheral CD5+ DN T cells bearing a CD3-associated alpha/beta-heterodimer.