Parameters involved in the induction and abrogation of the lethal graft-versus-host reaction directed against non-H-2 antigens

Significant MLR but not CTL responses against recipient antigens generated in T cells from bone marrow chimeras recovered from acute GVHD

Lethally irradiated AKR mice received BMT from H-2D and minor lymphocyte stimulatory (Mls)-1 disparate B10.A mice. No GVHD signs were detected in AKR recipients of T cell-depleted BM cells (1 x 10(7)) alone ([B10.A --> AKR] T-). When B10.A splenic T cells (1 x 10(5)) were injected in addition to T cell-depleted BM cells ([B10.A --> AKR] T+), overt GVHD was observed. [B10.A --> AKR] T+ chimeras recovered from the GVHD 8 weeks after BMT. In T cells from these [B10.A --> AKR] T+ chimeras, a substantial population of Mls-1a-reactive Vbeta6+ T cells was present, whereas the Vbeta6+ cells were deleted in [B10.A --> AKR] T- chimeras. T cells from [B10.A --> AKR] T+ chimeras showed considerable MLR but no CTL response against AKR cells (split tolerance). Upon stimulation with AKR stimulators or anti-CD3 MoAb, T cells from [B10.A --> AKR] T+ chimeras produced significantly more IL-4 but significantly less IFN-gamma compared with those from [B10.A --> AKR] T- chimeras or unmanipulated B10.A mice. The serum level of IgG1 in [B10.A --> AKR] T+ chimeras was also significantly higher than that in [B10.A --> AKR] T- or B10.A mice. The present findings suggest that the split tolerance observed in BMT chimeras recovered from GVHD is attributable to the Th2 dominant state.

Effects of the chromatographic fractions of the pig placental trophoblast on graft-versus-host reaction

The trophoblast has a significant role in regulation of immune reactions at the materno-fetal interface by producing biologically active substances. In our previous studies five fractions with immunomodulatory activities were isolated by gel chromatography from trophoblast of pig placentas. To confirm the immunomodulatory effect of these trophoblast fractions on allogeneic in vivo systems and to obtain more evidence for the relevance of their activity on the maternofetal interface, their effect was studied on graft-versus-host reaction (GVHR). To assess the GVHR, the primary and secondary popliteal lymph nodes assay was used in mice. In the primary GVHR, 100 microg protein of Fraction 2-5, mixed with 5 x 10(6) allogeneic spleen cells (C57BL/6), were injected into one of the foot pads of recipient (BALB/c) mice. The secondary GVHR was induced in F1 (BALB/c x C57BL/6) mice by injection of spleen cells of BALB/c mice intraperitoneally preimmunized with allogeneic cells. The GVHR was measured by the weight of lymph nodes and by the lymphocyte proliferation. Flow cytometric analyses of the cells in the nodes with GVHR and under the influence of Fraction 4 or 5 were performed using monoclonal antibodies. In the primary GVHR, Fraction 4 or 5, injected simultaneously with allogeneic spleen cells, significantly suppressed the lymph nodes reactivity. Fractions 4 and 5 inhibited the ability of the spleen cells of mice intraperitoneally preimmunized with allogeneic cells to induce secondary GVHR in F1 mice. The Fraction 2 and 3 had no effect on GVHR. The results revealed that a group of proteins with Mr 37-7 kDa, isolated from trophoblast of pig placenta, strongly suppressed popliteal lymph node reactivity in the primary and secondary GVHR. The data provide convincing evidence for these fractions in vivo activity, for their effect across the species barrier and suggest the relevance of the same reactions on the materno-fetal interface.

Comparative analyses of thymocyte and thymic low-density adherent cell functions

Thymocytes which have developed in the C3H thymus showed depressed proliferative responses to stimulation with anti-CD3 antibody as compared with those which have developed in the thymus of other strains of mice (i.e. AKR). The present study was conducted to analyze immunological functions of the thymic stromal cell population (low-density adherent cells, LDAC) in the C3H mice using allogeneic bone marrow (BM) chimeras established by BM transplantation in the reciprocal combination of AKR and C3H mice as donor or recipient. The thymic LDAC from C3H mice or the [AKR(donor)-->C3H(recipient)] chimeras contained a high proportion of Mac-1+ cells as compared to AKR mice or the [C3H-->AKR] chimeras. The proportion of Mac-1+ cells paralleled the IL-1- and PGE2-secreting ability of the LDAC cultured either in the presence or absence of LPS and also paralleled the antigen-presenting cell functions of the LDAC. Furthermore, after anti-CD3 stimulation the PGE2 inhibited more profoundly proliferative responses of [AKR-->C3H] or normal C3H thymocytes than those of the [C3H-->AKR] chimera or normal AKR thymocytes. A PGE2 inhibitor, indomethacin, reversed the depressed responses of the thymocytes which had developed in the C3H thymus. These findings suggest that the lower responsiveness of thymocytes from [AKR-->C3H] chimeras to anti-CD3 stimulation may be attributable to large amounts of PGE2 secreted by LDAC and/or to increased sensitivity of thymocytes themselves to PGE2.

Evidence for a multigenic system controlling methyl-beta-carboline-3-carboxylate (beta-CCM)-induced seizures

beta-CCM is a beta-carboline known to have properties opposite to those of benzodiazepines. Our approach was to analyze, in mice, the genetic mechanisms involved in beta-CCM-induced myoclonic seizures using recombinant congenic strains and F1 hybrids issued from these strains. Our aim was to define the extent of the multigenic character of beta-CCM-induced myoclonic seizures, while also evaluating the distribution of the strength of the genes implicated in this trait. The results show that the control of reactivity to beta-CCM is multigenic with notable epistatic involvement.

Influence of a small number of mature T cells in donor bone marrow inocula on reconstitution of lymphoid tissues and negative selection of a T cell repertoire in the recipient

Allo-chimerism and clonal elimination of self antigen (Ag) (Ia + Mls-1a) reactive V beta 6+ T cells were analyzed and compared between allogeneic bone marrow (BM) chimeras reconstituted with BM cells which had been treated with anti-Thy-1 monoclonal antibody (mAb) plus complement (C) (T- chimeras) and BM chimeras which had been reconstituted with BM cells pretreated with anti-Thy-1 mAb alone (T+ chimeras). When lethally irradiated AKR (Mls-1a) mice were reconstituted with BM cells from B10 or B10 H-2 congenic mice, both T+ and T- chimeras were entirely free of signs of graft-versus-host reaction (GVHR). However, complete replacement of the AKR lymphoid tissues by donor BM cells was accomplished at an early stage in T+ chimeras but not in T- chimeras. On the other hand, clonal elimination of V beta 6+ T cells reactive to the recipient Ag (Mls-1a) was abolished in T+ chimeras but successfully induced in T- chimeras. The V beta 6+ T cells not eliminated in T+ chimeras showed depressed responses against Mls-1a antigens. The findings herein demonstrate that T cells which contaminate a BM inoculum survive in recipient mice after treatment with anti-Thy-1 mAb without C in vitro followed by BMT. The surviving T cells have been estimated to represent fewer than 0.5% of the BM cells inoculated. These cells appear to accelerate the full replacement of recipient lymphoid tissues by donor cells. Furthermore, the T cells which survive in the marrow inoculum influence eventually the development of a tolerant state in the T cell repertoire of the donor.

Recombinant congenic strains of mice from B10.D2 and DBA/2: their contribution to behavior genetic research and application to audiogenic seizures

Recombinant congenic strains (RCS) represent a series of related strains, each of which carries a small fraction of the genome of one strain ("donor" strain) on the genetic background of another strain ("background" strain). Recombinant inbred strains (RIS) are commonly used to identify major gene segregation and linkage and associations between behavior and quantitative trait loci, whereas recombinant congenic strains (RCS) open other complementary leads. The variability in the reactivity of RCS to a trait is thus the expression of few minor-effect genes originating from the donor strain, because the probability that major genes are present in any one RCS is low. Unlike RIS in which minor-effect genes are often masked by major genes, RCS enable the effects of minor genes to be studied. With our method, for a given trait, an estimate can be made of the gene strength distribution as well as an estimate of the minimal number of genes involved having a certain strength.

Improved survival from potentially lethal graft-vs.-host disease by donor pretreatment with a recipient-specific blood transfusion. I. Requirements for induction and specificity of the effect

Pretreatment of prospective donors of hemopoietic cells with a single recipient-specific blood transfusion can significantly decrease the morbidity and mortality of graft-vs.-host disease (GVHD) in lethally irradiated, allogeneically reconstituted mice. This beneficial effect of donor pretreatment could be demonstrated in donor-recipient strain combinations that were H-2 + non-H-2, H-2, or only class II-disparate, but not in the class I-disparate C57BL-B6.C-H-2bm1 strain combination. The effect was proportional to the amount of recipient-strain blood used for transfusion. Donor transfusion with a single dose of 1 ml recipient-specific whole blood resulted in minimum GVHD, lower doses being less or not effective. The interval between donor pretreatment and the use of their hemopoietic cells for reconstitution appeared to be important. The best survival was found at an interval of 4 days. Multiple transfusion was not more effective than a single one. We compared the effectiveness of whole blood and irradiated spleen cells for donor pretreatment. Both protocols have been shown previously to suppress anti-recipient delayed-type hypersensitivity. It appeared that the blood transfusion protocol was superior to the spleen cell protocol. The beneficial effect appeared to be recipient specific, since a third-party blood transfusion did not improve GVHD. We found that the beneficial effect of donor blood transfusion was due to suppression of the anti-host immune response. The donor blood transfusion was able to induce bystander suppression to alloantigens that were not used for the induction of suppression, provided they were co-expressed with the specific alloantigens by the recipients. This also indicates that, although the induction of suppression is specific, the ultimate suppressive effect is non-specific.

Immunoactive products of human placenta. IV. Immunoregulatory factors obtained from cultures of human placenta inhibit in vivo local and systemic allogeneic and graft versus-host reactions in mice

We have shown in previous reports that human placental supernatants (HPS) display a variety of immunoregulatory properties in vitro. Here we report that these supernatants are able to suppress the ability of murine splenocytes to evoke an allogeneic reaction in the popliteal lymph node (PLN) assay, as well as their capacity to induce both local (popliteal lymph node swelling) as well as systemic chronic or lethal graft-versus-host reactions. Those results are discussed in the light of the potential use of HPS in the control of transplantation immune reactions as well as in the regulation of xenogeneic pregnancies, as the murine system that was used proved that the material exerted an effect across a species barrier.

A study on graft-versus-host reaction (GVHR) by Simonsen's splenomegaly assay. Cells and antigen systems involved in induction of GVHR

Cells and histocompatibility antigen systems involved in graft-versus-host reactions (GVHR) were analyzed using Simonsen's splenomegaly assay employing various combinations of donor and F1 hybrid recipients mice. Most of the cells proliferating in spleens of mice undergoing GVHR were J11d+, and had histological features of cells of the hematopoietic lineage. The proportions of CD3+ T cells were decreased in the spleens. Disparity at minor histocompatibility determinants of AKR, I-E and H-2D regions between B10.A(4R) donors and (4R X AKR) F1 recipients evoked only negligible GVHR. On the contrary, disparity at H-2K and/or I-A regions appeared to be sufficient to permit induction of full GVHR. When surface markers of donor spleen cells were analyzed, it was shown that Thy-1+ and/or MEL-14+ cells caused a strong effect on GVHR. Further, either CD4+ or CD8+ T cell subset could induce significant GVHR. However, synergistic influences of these two T cell subsets on one another in GVHR were observed. The present results raise the possibility of using Simonsen's assay along with a number of reagents to identify the contribution of subsets of T lymphocytes and in analyzing precise contributions of cellular components from both donor and recipient, and also of the target antigen systems of the recipient that contribute to early events involved in GVHR.

Abrogation of the lethal graft-vs.-host reaction developed to non-H-2 antigens: involvement of T suppressor cells distinct from veto cells

The mortality induced by graft-vs.-host reaction (GVHR) in (DBA/2 x B10.D2)F1 recipients transplanted with cells from H-2d-identical B10.D2 donors can be abrogated by preimmunizing the donors with parent-strain spleen cells from normal DBA/2 mice. The experiments described here were designed to explore the possibility that the observed protection might be mediated by veto cells contained in the immunizing cell inoculum; the reasoning was based on an analogy with the cytotoxic T lymphocyte response to non-H-2 antigens where suppression can be mediated by veto cells, present in the spleens of normal mice, which are radiosensitive and largely Lyt-2+. We show that the intensity of the protection against GVHR mortality is a function of the immunizing cell dose, and that protection remains effective when optimal doses of immunizing cells are (a) irradiated or (b) pretreated with anti-Thy-1 serum. GVHR suppression is abrogated when, before transfer to F1 recipients, suppressor cells from spleens of immunized donors are pretreated with antiserum directed against Lyt-1.2 (expressed by B10.D2 but not by DBA/2, which expresses Lyt-1.1); in contrast, it is not significantly affected when these same cells are pretreated with anti-Lyt-2.2 alloantiserum. We conclude that when the antigen load is great enough the immunizing cells play a largely passive role in the observed suppression. The protection against GVHR mortality seen in this H-2-compatible combination is transferable by Lyt-1+2- suppressor T cells originating in mice given high doses of alloantigen. These suppressor cells are therefore distinct from the splenic veto T cells effective against cytotoxic T lymphocyte responses to non-H-2 antigens. The mechanism of the observed suppression and its relationship to Mls product(s) are discussed.

Variable capacity of L3T4+ T cells to cause lethal graft-versus-host disease across minor histocompatibility barriers in mice

Highly purified populations of L3T4+ and Lyt-2+ T cell subsets were compared for their capacity to cause lethal GVHD in six different H-2-compatible, multiple minor histocompatibility antigen-different murine strain combinations. In four of these combinations (C3H.SW----B6, DBA/2----B10.D2, B10.BR----CBA, and B10.S----SJL), lethal GVHD appeared to be caused almost entirely by Lyt-2+ cells; the injection of L3T4+ cells resulted in low mortality even when these cells were presensitized to the recipient antigens. In the remaining two combinations (B10.D2----DBA/2 and B10.D2----BALB/c), L3T4+ T cells were able to cause a high incidence of GVHD and were more potent than the Lyt-2+ cells. The implications of these findings are discussed.

Abrogation of lethal graft-versus-host reaction directed against non-H-2 antigens: role of Mlsa and K/I region antigens in the induction of unresponsiveness by alloimmunization

A graft-versus-host reaction (GVHR) directed against DBA/2 non-H-2 antigens alone can be induced by grafting B10.D2 bone marrow and spleen cells intravenously to heavily irradiated, H-2d compatible (DBA/2 X B10.D2)F1 adult mice. Under the experimental conditions used, only 0-10% of recipients survive, but the survival is greatly increased by donor alloimmunization, a few days prior to grafting, against host-specific (DBA/2) non-H-2 antigens and non-specific (foreign) H-2 antigens. The increased survival is mediated by alloimmunization-activated suppressor cells which can decrease the intensity of the immune reaction developed by normal B10.D2 cells both in vivo (GVHR) and in vitro (proliferative response measured in mixed lymphocyte culture, MLC). The present experiments were designed to explore the antigenic requirements for inducing suppression. The results showed that in GVHR the protective effect induced by donor alloimmunization against the specific non-H-2 antigens, which leads to 70-80% survival, is due primarily, if not entirely, to immunization against Mlsa antigens. Results of MLC experiments confirmed this conclusion, showing that immunization against Mlsa antigens is sufficient to account for the suppressive effect induced by the specific immunization. In addition, they indicated that the non-specific protective effect induced by donor alloimmunization against foreign H-2 antigens, which leads to 20-30% survival, is due to immunization against antigens encoded by the K and/or I region(s) of the H-2 complex; immunization against D region encoded antigens alone has no effect.