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)

A lupus-like disease characterized by a severe immune complex glomerulonephritis and IgG autoantibody production was induced in (C57BL/6 X DBA/2)F1 mice by injection of parental DBA/2 lymphoid cells. The ensuing graft-vs-host (GVH) reaction resulted in a 10- and a 100-fold increase in serum IgG antibody levels to denatured DNA and total histones, respectively, compared with that in F1----F1 control mice. The level of anti-DNA antibodies peaked 2 wk after injection of DBA/2 cells and preceded peak anti-histone levels by approximately 2 wk. Anti-histone antibodies were generated predominantly to histones H1, H2A, and H2B, a profile different from that observed in NZB/NZW and MRL-lpr/lpr mice. The marked increase in IgG antinuclear antibodies did not correlate with increases in total IgG serum levels and was not associated with comparable increases in antibodies to transferrin, hemoglobin, fibrinogen, or thyroglobulin. Selective autoantibody production was also observed in vitro, wherein GVH spleen cells produced high levels of IgG antibodies to total histones and denatured DNA but not to these non-nuclear protein antigens. In contrast, spleen cells stimulated in vitro with lipopolysaccharide produced equivalent amounts of antibodies to all antigens tested. Our results are in agreement with those of other investigators and collectively suggest that IgG autoantibodies in GVH disease, and possibly in spontaneous lupus-like disease, are not secondary to a generalized B cell activation, but may be selectively generated in response to self antigens with unique configurational properties.
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PMID:Autoimmunization in murine graft-vs-host disease. I. Selective production of antibodies to histones and DNA. 387 58

In our model of GVHR, irradiated (DBA/2 X B10.D2)F1 mice were given splenic and bone marrow cells from B10.D2 donor mice. At different set times after the graft, recipient mice were given a single injection of a radioactive precursor of DNA (125IUdR) and killed one hour later. The radioactivity in excised organs reflected the label incorporation by the proliferating cells. When mice were killed from 1 hour to 96 hours after the label injection the residual radioactivity in individual organs reflected the number of the residual living cells arising from cells which were in S-phase during the label pulse. This study allowed us to specify the dynamics of the cell proliferative activity and the behavior of these proliferating cells through the whole organism at any time of a GVH disease. A very interesting point is that the minor non-H-2 histocompatibility antigens (MiHA) responsible of the GVHR induced a very important and specific stimulation of the grafted cell proliferation in all the non-lymphoid organs with a spatial and timing evolution through the whole organism. A great part of the cells specifically stimulated to divide by the MiHA are very short-lived. The remaining living cells migrate out of the spleen and bone marrow and accumulate into the non-lymphoid organs after a latency period lasting 12-24 hours following the label uptake. This cell invasion was mainly into the liver, vesicular glands, kidneys, salivary glands and lungs.
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PMID:Proliferation and migration of grafted hemopoietic cells during a graft-versus-host reaction induced by minor non-H-2 histocompatibility antigens in the mouse. 391 Jan 29

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

Antibodies produced in B10.D2 mice against soluble lymphocyte membrane antigens of B10.A (H-2(a)) mice reacted only with lymphocytes of the strains carrying the Ir(k) region, i.e., B10.A(2R), B10.K, B10.BR, B10.HTT, AQR, A.TE, C3H, and CBA; they did not react with cells of strains carrying different Ir regions, i.e., B10.A(4R), B10, B10.M, A.SW, DBA/1. It is therefore concluded that the antigen detected with these antibodies is apparently controlled by the Ir region of the H-2 complex. The antigen is present on some T lymphocytes and absent on B lymphocytes. Its presence or absence seems to correlate with MLC and GVH reactivity.
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PMID:Serologic evidence for antigens controlled by the Ir region in mice. 414 77

The thymus, spleen, and lymph nodes were studied in runt disease induced by a graft of intravenously injected homologous splenic cells into newborn rats and mice. Adult Long-Evans cells (70 x 10(6)) were injected into Sprague-Dawley rats. Adult DBA cells (7 x 10(6)) were injected into C57BL/6 mice. Runted rats were sacrificed at 14 to 28 days of age; mice at 10 to 20 days. The thymic cortex is depleted of small lymphocytes. Those remaining are severely damaged and phagocytized. Evidence of damage includes swelling of mitochondria, myelin figure formation, margination of chromatin, and sharp angulation in nuclear contour. Large numbers of macrophages are present. Epithelial-reticular cells which envelop small cortical blood vessels are often retracted, with the result that the most peripheral layer in the thymic-blood barrier suffers abnormally large gaps. Lymphocytes of the periarterial lymphatic sheaths of spleen and of the cortex of lymph nodes are reduced in number and damaged. Vast numbers of plasma cells and many lymphocytes are evident throughout lymph nodes, in the periarterial lymphatic sheaths, and in the marginal zone and red pulp of the spleen. Plasma cells are of different sizes, the larger having dilated sacs of endoplasmic reticulum. Lymphocytes are small to medium in size. They contain, in varying quantity, ribosomes and smooth membrane-bounded cytoplasmic vesicles approximately 350 to 500 A in diameter. Most plasma cells and lymphocytes are damaged and many of these are phagocytized. Many lymphocytes in lymph nodes, however, show no evidence of damage. Reticular cells and other fixed cells of the connective tissues seldom appear affected. Thus, the major cell types reacting in runt disease are lymphocytes, plasma cells, and histiocytes or macrophages. It appears, therefore, that both the delayed and immediate types of sensitivity play a part in this disease.
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PMID:An electron microscope study of lymphatic tissue in runt disease. 584 Jul 95

Previous work from this laboratory has led to the hypothesis that the stimulatory pathological symptoms of chronic graft-vs.-host disease (GVHD) are caused by alloreactive donor T helper (TH) cells, whereas the suppressive pathological symptoms of acute GVHD are caused by alloreactive T suppressor (TS) cells of the donor. In the present paper we analyzed the Lyt phenotypes of B10 donor T cells required for the induction of either acute or chronic GVHD in H-2-different (B10 X DBA/2)F1 recipients. First, nonirradiated F1 mice were used as the recipients. We found that unseparated B10 T cells induced only a moderate formation of systemic lupus erythematosus (SLE)-like autoantibodies, but a high percentage of lethal GVHD (LGVHD). In contrast, Lyt-1+2- donor T cells were unable to induce LGVHD in these recipients; these cells were capable, however, of inducing a vigorous formation of SLE-like autoantibodies and the formation of severe immune-complex glomerulonephritis. Lyt-1-2+ T cells were incapable of inducing either acute or chronic GVHD. In another experiment, the sensitivity and accuracy of the GVH system were increased by using irradiated F1 mice as recipients and by comparing donor-cell inocula that contained similar numbers of T lymphocytes. In addition, donor-cell inocula were used that had been tested for their allohelper and allosuppressor effects on F1 B cells in vitro. In the irradiated F1 recipients, too, unseparated donor T cells were superior to T cell subsets in inducing LGVHD; Lyt-1-2+ donor cells were completely and Lyt-1+2- donor cells were almost incapable of doing so. In contrast, Lyt-1+2- T cells, but neither unseparated T cells nor Lyt-1-2+ T cells, were capable of inducing a vigorous formation of SLE-like auto-antibodies. We conclude that the stimulatory pathological symptoms of chronic GVHD are caused by Lyt-1+2- allohelper T cells. In contrast, the development of the suppressive pathological symptoms of acute GVHD appears to involve alloreactive Lyt-1+2+ T suppressor cells.
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PMID:Allosuppressor- and allohelper-T cells in acute and chronic graft-vs.-host (GVH) disease. III. Different Lyt subsets of donor T cells induce different pathological syndromes. 622 82

We studied the alloreactive properties of donor T cells obtained from F1 mice that had recovered from the allosuppression of acute graft-vs.-host disease (GVHD) and showed mild symptoms of chronic GVHD, i.e., so-called secondary chronic GVHD. To this end, we used (B10 x DBA/2)F1 mice that had been injected with 10(8) B10 spleen cells 100-150 d previously. Such GVHD F1 mice were repopulated by lympho-hematopoietic cells of donor (B10) origin, which exhibited split tolerance towards the host: Whereas F1-specific donor T helper (Th) cells as well as T cells proliferating in the mixed lymphocyte reaction were readily demonstrable, F1-specific T suppressor (Ts) and T killer (Tk) cells were not, or were hardly, detectable; responses against third-party alloantigens were normal. Upon adoptive transfer to nonirradiated secondary recipients, the B10 cells obtained from the repopulated GVH F1 mice induced F1-specific enlargement of the draining popliteal lymph node and enhancement of the IgG formation therein. B10 cells of the same kind were unable, however, to induce lethal GVHD upon transfer to 950 rad-irradiated secondary (B10 x DBA/2)F1 recipients. We conclude that alloactivated donor Ts/Tk cells disappear from the host at a relatively early stage of GVHD, i.e., at the end of acute GVHD , presumably because they are short-lived. By contrast, the longevity of alloactivated donor Th cells causes the symptoms of secondary chronic GVHD.
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PMID:Allosuppressor and allohelper T cells in acute and chronic graft-vs-host disease. V. F1 mice with secondary chronic GVHD contain F1-reactive allohelper but no allosuppressor T cells. 622 96

Groups of nonirradiated BDF1 mice were injected with unseparated spleen cells from B10, B10.D2, or DBA/2 donors. The diverse clinical and pathologic symptoms that developed during the course of the ensuing graft-vs-host reaction (GVHR) were related to the functional subsets of donor-T cells activated in the host. The activation of F1-specific donor T suppressor (TS) cells was confined to those GVH F1 mice that developed acute GVH disease (GVHD) (donor B10 or B10.D2). Moreover, activation in these GVH F1 mice of the Lyt-1-2+ donor TS cells sharply preceded the onset of and coincided with (week 2 to 6) the suppressive pathologic symptoms characteristic of acute GVHD, such as pancytopenia and suppression of splenic IgG production. The activation of these alloreactive TS effector cells was briefly preceded by the activation of F1-specific Lyt-1+-2- donor T helper (TH) cells and stimulation of the host's lymphoid tissue. Thus, in acute GVHD, a sequential alloactivation first of donor TH and then of TS cells was found. Those F1 mice that recovered from acute GVHD and developed stimulatory pathologic symptoms showed a concomitant loss of donor TS cell activity. An initial activation of F1-specific Lyt-1 +2- donor TH cells was also found in that parent----F1 combination (donor DBA/2), which failed to develop acute GVHD. Significantly in that combination, the alloactivation of donor TH cells was not followed by activation of significant numbers of donor TS cells. Instead, the DBA/2-injected BDF1 mice directly developed a persistent increase in splenic Ig formation and lupus-like GVHD.
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PMID:Allosuppressor- and allohelper-T cells in acute and chronic graft-vs-host disease. IV. Activation of donor allosuppressor cells is confined to acute GVHD. 623 Mar 90

When comparing, in a murine model, the kind of graft-versus-host (GVH) disease (GVHD) induced by the donor strain DBA/2 on the one hand and several H-2-congenic resistant B10 donor strains on the other, we found that strain DBA/2 was a universal nonkilling GVH donor for H-2-incompatible nonirradiated F1 hybrid recipients. In this respect, DBA/2 T cells differed from those of the H-2-identical donor strain B10.D2 as well as those of other b10 donor strains. The inability of strain DBA/2 to kill by GVH reaction was not limited to certain H-2 incompatibilities in the F1 recipients, but was nonspecific. The inability to kill is determined by a dominant locus not linked to H-2. DBA/2 T cells were also incapable of inducing the severe suppression of hematocrit values, bone marrow erythropoiesis, thymic cell proliferation, and splenic IgG production in the F1 recipients that was observed after the injection of T cell from the B10 strains. However, DBA/2 T cells, in contrast with those of the B10 donor strains, were vigorous stimulators of IgG production in H-2-incompatible F1 hybrid recipients. Surprisingly, strain DBA/2 as well as the B10 donor strains had good capacity to generate anti-F1 TK cells. Taken together, these findings raise the possibility that lethal GVHD disease is not caused, or not caused exclusively, by donor killer T cells, but by those donor T cells that directly or indirectly induce a suppression of cell proliferation in certain vital organs of the recipient.
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PMID:Capacity of genetically different T lymphocytes to induce lethal graft-versus-host disease correlates with their capacity to generate suppression but not with their capacity to generate anti-F1 killer cells. A non-H-2 locus determines the inability to induce lethal graft-versus-host disease. 645 50

Complete hemopoietic takeover between semiallogeneic adults can be accomplished by the administration of antihost major histocompatibility complex (MHC) monoclonal antibody (mAb) and donor stem cells. The recipients of such treatment are termed antibody-facilitated chimeras, and they have been produced in (BALB/cCr----(BALB/cCr X C3H/HeJ)F1 and DBA/2J----(DBA/2J X C3H/HeJ)F1 strain combinations. Donor stem cells can be derived from spleen, bone marrow, or T-cell-depleted bone marrow. Engraftment by donor hemopoietic cells can be facilitated by mAbs directed toward class I (anti-H-2Kk) or class II (anti-H-2I-Ak) MHC antigens of the host. By monitoring isozymes of glucose phosphate isomerase, it can be shown that the establishment of donor hemopoiesis is stable, persisting for more than a year without graft-versus-host disease. The effect of anti-MHC mAb on pluripotential stem cells was evaluated by the (colony-forming units-spleen) (CFU-S) assay. The number of CFU-S in target (H-2k) bone marrow was reduced by in vitro pretreatment with anti-H-2Kk mAb, but not with anti-H-2I-Ak mAb. In contrast, in vivo administration of either anti-H-2Kk or anti-H-2I-Ak mAb resulted in a marked decrease in the CFU-S capacity of relevant strain mice. These observations suggest that the target of the in vivo mAb treatment may be pluripotential stem cells--or perhaps the hemopoietic microenvironment.
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PMID:Antibody-facilitated chimeras. Stem cell allotransplantation using antihost major histocompatibility complex monoclonal antibodies instead of lethal irradiation for host conditioning. 646 66

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