UMLS:C0018133 - FACTA Search

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Query: UMLS:C0018133 (graft-versus-host disease)
18,032 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Small bowel and its mesentery contain considerable amounts of lymphoid tissue that can mediate graft-versus-host disease in small bowel transplant (SBT) recipients. Present studies determined the existence of GVHD in a fully allogeneic SBT model and examined the effect of donor pretreatment with ALS in eliminating GVHD. Adult male Lewis (Lew) rats received orthotopic small bowel transplants from untreated (LewxBN)F1 (LBNF1) donors (group 1) or Brown Norway (BN) donors that were untreated (group 2) or pretreated with ALS (days -2 and -1) (group 3). All recipients were treated with cyclosporine 15 mg/kg/day i.m. on days 0-6 postoperatively. Animals were weighed and examined daily for signs of rejection and GVHD. No animals in groups 1 or 3 showed any physical signs of GVHD, but all of those in group 2 had characteristic weight loss, diarrhea, and dermatitis between 4 and 6 weeks postoperatively, from which they all recovered. Histologic examination of skin and spleen at this time confirmed the presence of GVHD. The relative spleen weight [( spleen weight/body weight] x 100) of group 2 animals was also significantly greater than that of unoperated control Lew animals. Spleen cells obtained from group 2 animals at the time of subclinical GVHD, but not cells from group 1 or 3 animals, caused enlargement of popliteal lymph nodes when they were injected into the footpads of Lew rats. This study shows that GVHD can manifest itself in recipients of a fully allogeneic small bowel transplant even when rejection is prevented by effective immunosuppression with CsA. However, combined use of recipient treatment with CsA and pretreatment of donor animals with ALS eliminates all manifestations of GVHD.
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PMID:Graft-versus-host disease in fully allogeneic small bowel transplantation in the rat. 291 75

Immunosuppression is a well-characterized consequence of chronic graft-versus-host disease (GVHD). We have previously shown that interferon (IFN) is produced in high levels during acute GVHD. Our objective in this study was to determine if IFN, as a cytokine with known immunosuppressive qualities, could be detected in mice experiencing chronic GVHD-induced immunosuppression. Two different experimental models were used to induce chronic GVHD. The first model involved the injection of parental strain spleen cells into adult F1 hybrids (AJ----B6AF1), while the second model utilized GVHD induced across minor histocompatibility barriers (B10.D2----BALB/c). Results indicated that significant levels of serum IFN-alpha/beta are present in mice undergoing chronic GVHD. Spleen cells from chronic GVHD mice were also shown to produce significant levels of IFN-alpha/beta upon in vitro culture in medium only. This IFN-alpha/beta production was greatly increased when GVHD spleen cells were cultured with either concanavalin A (Con A) or IL-2. In contrast, IFN-gamma production was undetectable in these Con A- or IL-2-containing cultures. Additionally, these same spleen cells which produced high levels of IFN-alpha/beta were immunosuppressed as measured by mitogen-induced cell proliferation. These results suggest that IFN-gamma production is defective in GVHD spleen cells, and that the presence of high IFN-alpha/beta production by GVHD mice may contribute to the immunosuppression associated with chronic GVHD.
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PMID:Enhanced interferon-alpha/beta (IFN-alpha/beta) and defective IFN-gamma production in chronic graft versus host disease: a potential mechanism for immunosuppression. 311 28

In our laboratory, we have developed a murine model to examine GVHD across minor histocompatibility antigens. In our model, GVHD is induced by injecting B10.D2 spleen cells into irradiated BALB/c recipients. Seven to 10 days after irradiation and injection of cells, there are significant changes in cell function in the recipient spleens. In the B10.D2----BALB/c (600 rad) model, recipient spleen cells are profoundly unresponsive to Con A and LPS stimulation but show increased B cell activity measured by Staphylococcus aureus protein A plaque-forming activity. Spleen cells from such GVH mice profoundly suppress the mitogenic responses of normal BALB/c or B10.D2 spleen cells to Con A and LPS. The degree of impairment of the mitogenic response and the ability to suppress normal cells is proportional to the dose of cells used to induce GVH reactions. Both the inability to respond to mitogens and the capacity to suppress are also related to the dose of irradiation given to the recipients. In addition, immunosuppression across minor histocompatibility antigens shows an unevenhandedness. If we inject parental B10.D2 or BALB/c cells into F1 recipients (P----F1), there is greater inhibition of mitogenic responses when B10.D2 parental cells are given than when BALB/c cells are given to the irradiated F1 recipients. These experiments show that significant immunosuppression occurs during GVH reactions across minor histocompatibility barriers. The degree of suppression varies according to the dose of cells used to induce GVH, the dose of irradiation to the recipient and the "strength" of the GVH recognition system. Such experiments provide models for GVH disease seen in humans who receive treatment for leukemia or other diseases that involves recipient irradiation and infusion of HLA-identical bone marrow.
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PMID:Graft-vs-host reactions (GVHR) across minor murine histocompatibility barriers. I. Impairment of mitogen responses and suppressor phenomena. 315 67

We explored the immunoincompetence of mice undergoing a chronic graft-vs-host reaction (GVHR) across minor histocompatibility barriers. BALB/c and B10.D2 mice are H-2d and mls b, and differ only with regard to minor histocompatibility antigens (MiHA). A large number of BALB/c mice were unirradiated or were irradiated with 300, 600, or 900 R. They then were injected with 5 X 10(7) spleen cells from either allogeneic B10.D2 or syngeneic BALB/c mice. The spleen cells from these recipient mice were assayed at various times post-irradiation/injection for their proliferative response to Con A and LPS, their ability to suppress the mitogen responses of normal spleen cells, and for the genetic specificity of this suppression. Spleen cells from BALB/c mice that had received 600 or 900 R (but not 0 or 300 R), and allogeneic B10.D2 lymphocytes, became very hyporesponsive to mitogens and became suppressive in vitro by days 7 to 10 post-irradiation/injection. These phenomena persisted for the entire 49 days of the experiment. After an initial period of splenomegaly, the spleens of these mice gradually became depleted of viable lymphocytes. Initial characterization of suppressor cells found in the spleens of GVH mice showed that they were not removed by treatment with anti-Thy-1.2 plus complement. GVH suppressors also were not adherent to plates coated with antiserum directed towards murine Ig. In addition, these cells did not adhere to plastic plates. Thus, we believe that the suppressor cells found in mice undergoing GVHD across MiHA are not mature T cells, B cells, or macrophages, but belong to a class of suppressor cells termed natural suppressor (NS). Genetic analysis of NS cell activity showed that as early as 10 days post-irradiation/injection, NS cells inhibited mitogen responses of all mouse strains tested, the exception being the relative difficulty in suppressing the LPS response of B10.D2 (syngeneic with donor cells). By day 42, this had developed into an almost complete inability to suppress a B10.D2 LPS response, although at this time NS cells were still capable of inhibiting all the other mitogen responses of all strains tested, including the Con A response of B10.D2 spleen cells. Moderate amounts of mitogen unresponsiveness and suppressor activity were seen in the syngeneic groups (BALB/c----BALB/c) but only if recipients received 600 or 900 R. This was a transient phenomenon that was maximal at day 14, and which we believe to be a similar but less severe degree of immunoincompetence when compared with that seen with allogeneic stimulation in the B10.D2----BALB/c GVH model.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Graft-vs-host reactions (GVHR) across minor murine histocompatibility barriers. II. Development of natural suppressor cell activity. 316 Jul 74

We have been studying the mitogen hyporesponsiveness and immunosuppression induced in chronic murine graft-vs.-host disease (GVHD) induced across minor histocompatibility (MiHA) barriers. In this system, donor and recipient mice are major histocompatibility complex- and mls-identical, and are nonreactive in primary mixed leukocyte reactions. Spleen cells from B10.D2 (H-2d, mls b) mice were injected into irradiated (600 rad) BALB/c (H-2d, mls b) recipients. Recipient spleen cells are hyporesponsive to mitogens, and contain natural suppressor (NS) cells. We investigated the cellular requirements for both the in vivo induction and the in vitro expression of this GVH suppression. T cells are required in the graft, but they are not sufficient to induce suppression, and a non-T cell population is also required for maximum induction in vivo. T cells are also required for the maximum expression of NS cell suppressive ability in vitro. Early in the course of GVH, the suppressor cells are able to suppress the Con A and LPS response of all mouse strains tested (except for the relative difficulty in suppressing the B10.D2 LPS response). Later, they become almost completely unable to suppress the B10.D2 LPS response; while still being able to suppress the Con A and LPS response of all other strains tested (including the B10.D2 Con A response). This inability to suppress a B10.D2 LPS response can be brought back to almost complete suppression by the addition of concanavalin A supernatant (CAS). We present a hypothesis to explain what may be a common mechanism for GVH-induced suppression, total lymphoid irradiation-induced suppression, and neonatal tolerance. These situations all include rapidly proliferating lymphohematopoietic stem cell populations, and also have large numbers of NS cells. NS cells can suppress proliferating lymphoid populations, and their development and activity are greatly enhanced by T cell signals such as are supplied by donor T cells in chronic GVHD. Thus, NS cells may feed back on and downregulate self-reactive T cells or T cells responding to introduced foreign antigens.
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PMID:Synergism between T and non-T cells in the in vivo induction and in vitro expression of graft-vs.-host disease-induced natural suppressor cells. 316 77

In the H-2 compatible (but minor loci-incompatible) BALB/c-DBA/2 strain combination (both H-2d), intravenous injection of 1.3 X 10(7) BALB/c spleen cells from virgin females into DBA/2 newborn mice less than 18 h old does not result in a significant lethal graft-versus-host reaction (GVHR). A strong GVHR (79% lethal) is induced if the BALB/c donors have been preimmunized to DBA/2. Spleen cells from BALB/c mice pregnant by DBA/2 males are also able to induce a significant, but weaker, GVHR (16% lethal) indicating a cellular priming to paternal antigens by gestation. A significant difference exists between anti-DBA/2 GVH reactivity of spleen cells from primiparous (22% lethal) and multiparous (9% lethal) allopregnant BALB/c mice, indicating that the allogeneic boosters of successive allogestations act more on the target-protective side of immunity than on the target-aggressive one. Sera from allopregnant mice (BALB/c X DBA/2) inhibit the GVHR induced by their own cells, while sera from isopregnant ones (BALB/c X BALB/c) have no effect. Thymectomy performed at 6-wk of age, six weeks before gestation did not significantly modify the maternal reactivity. A similar priming by allogestation in the same strain combination was found for local GVHR (induced in adult F1 hybrids) resulting in higher (+132%, P less than 0.005) stimulation indices and seen to be specific for the paternal strain, the indices induced by the same cells being lower (-35%, P less than 0.05) compared to that induced by cells from virgin BALB/c, when injected into irrelevant F1 hybrids (BALB/c X CBA).
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PMID:Maternal alloimmune reactions towards the murine conceptus and graft-versus-host reaction (GVHR). I. Priming for anti-paternal GVHR by gestation. 374 77

We have produced stable murine antibody-facilitated (AF) chimeras by the simultaneous injection of P1 bone marrow cells and anti-P2 monoclonal antibody into normal (unirradiated) adult (P1 X P2)F1 recipients. These AF chimeras are healthy, long-lived, and exhibit no overt signs of graft-versus-host disease. They are immunocompetent and tolerant of host, P2-encoded alloantigens. Donor cell engraftment and takeover, monitored by glucosephosphate isomerase isozyme patterns, is usually complete (greater than 95%) in the peripheral blood, bone marrow, and hemopoietic stem cell compartments of long-term (greater than 3 months posttransplantation) AF chimeras. We report here, however, that splenic, lymph node, and thymic leukocytes of AF chimeras represent donor/host chimeric populations. Spleen cell populations of AF chimeras exhibit substantial chimera-to-chimera variation in the preponderant residual host cell type(s) present. Our interpretations of the implications of these findings are discussed.
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PMID:Characterization of host lymphoid cells in antibody-facilitated bone marrow chimeras. 389 91

Graft-versus-host disease (GVH) was used to induce an autoimmune state in F1 recipients using donor spleen cells, splenic T cells, or Lyt 1+2- splenic T cells from either normal DBA/2 mice or from DBA/2 mice carrying the X-linked immunodeficiency (xid) gene. Recipients were either nondefective (DBA/2 X CBA/N)F1 males or reciprocal cross (CBA/N X DBA/2)F1 male mice carrying the xid gene. GVH induced hypergammaglobulinemia and anti-ssDNA autoantibodies in F1 recipients. Immunodeficient (CBA/N X DBA/2)F1 recipients had less hypergammaglobulinemia and IgG anti-ssDNA than did normal (DBA/2 X CBA/N)F1 recipients. Spleen cells, splenic T cells, and Lyt 1+2- splenic T cells from immunodeficient DBA/2.xid donors were less able to induce GVH and autoimmunity than normal DBA/2 donors. These studies suggest that the xid gene may reduce the autoimmune hyperractive state, but may do so by acting on more than one cell population, including T cells.
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PMID:Effect of the xid gene on graft-versus-host-induced autoantibody production in nonautoimmune mice. 392 60

Spleen cells from BALB/c or CAF(1) mice released little or no detectable leukemia virus when cultured 2-7 days in vitro. In contrast, spleen cells of CAF(1) mice previously inoculated with parental BALB/c spleen cells released leukemia viruses in 10 of 11 cases studied. Cultures of a mixture of spleen cells from normal BALB/c and CAF(1) mice also contained leukemia viruses. Phytohemagglutinin induced the transformation of lymphocytes in cultures of CAF(1) or BALB/c spleen cells, but this transformation did not activate leukemia viruses. It is concluded that mixed lymphocyte cultures in vitro, just as graft-versus-host reactions in vivo, can activate leukemia viruses that are normally present in a repressed form. This activation is not solely a function of lymphocyte transformation. The activated mouse leukemia virus may subsequently account for the observed high incidence of neoplasia in graft-versus-host disease.
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PMID:Activation of leukemia viruses by graft-versus-host and mixed lymphocyte reactions in vitro. 440 35

We have developed a model for the induction of transplantation tolerance in the guinea pig by vascularized spleen allografts. Spleen allografts from strain 13 to strain 2 hosts frequently survived in healthy recipients without clinical GVHD or induced clinical GVHD. (2 x 13)F1 to strain 2 spleen allografts survived indefinitely without inducing GVHD. In contrast, strain 2 spleen allografts were rejected by strain 13 hosts. An excellent correlation was observed between the clinical course and the degree of reactivity to donor strain stimulator cells in the MLR. Animals that had rejected their grafts had normal or enhanced proliferative responses in the MLR. Strain 2 hosts with long-term surviving strain 13 or (2 x 13)F1 grafts had markedly suppressed anti-13 responses. Animals with GVHD had a suppressed MLR toward donor strain stimulator cells with simultaneous reactivity to host strain stimulator cells. Cells capable of suppressing the response of normal host strain cells to donor strain stimulators were present in some long-term surviving animals and may be responsible in part for the maintenance of the tolerant state.
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PMID:Induction of transplantation tolerance in guinea pigs by spleen allografts. II. Responses in the mixed leukocyte reaction correlate with the tolerant state. 621 92

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