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)

In a prospective randomized study, five European transplant centers compared recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF; mammalian glycosylated) with placebo. rhGM-CSF was administered in a dose of 8 micrograms glycoprotein (5.5 micrograms protein)/kg/d, as a continuous intravenous (IV) infusion for 14 days, starting 3 hours after bone marrow infusion. Fifty-seven patients entered and completed the study. Median age of the recipients was 34 years (range, 17 to 51 y). All donors were HLA-identical, MLC-nonreactive siblings. Marrow grafts were depleted of T lymphocytes either by counterflow centrifugation (n = 42) or by immunological methods (n = 15). Twenty-nine patients received rhGM-CSF and 28 patients placebo. The leukocyte count and the absolute neutrophil count were significantly higher in the rhGM-CSF-treated group from day +9 to day +14 after bone marrow transplantation (BMT). This was also true for the monocyte count from day +12 to day +21. Early neutrophil (greater than 0.1 and greater than 0.3 x 10(9)/L) and early leukocyte (greater than 0.3 and greater than 0.5 x 10(9)/L) recovery was significantly faster for the patients given GM-CSF. The incidences of graft-versus-host disease (GVHD) and transplant-related mortality were not different in both groups. However, the number of bronchopneumonias was significantly lower in the rhGM-CSF-treated group (P = .03). Long-term follow-up showed a trend to better overall disease-free survival at 2 years and a trend to a lower relapse risk in patients treated with rhGM-CSF. This study shows that rhGM-CSF significantly increases neutrophil and monocyte counts during periods of 6 to 10 days in the second and third week after BMT. This shortened period until myeloid cell recovery after transplantation resulted in a decreased number of pneumonias, without an increase in incidence of GVHD or relapse.
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PMID:Recombinant human granulocyte-macrophage colony-stimulating factor accelerates neutrophil and monocyte recovery after allogeneic T-cell-depleted bone marrow transplantation. 153 59

We have previously shown that two distinct mouse placental fractions (PF) are potent immunomodulators in vivo. A 40 kDa PF induces a marked decrease of plaque forming cell (PFC) responses, while a 60 kDa PF increases them. Both effects are specific for the priming antigen. In the present study, these two PF are assayed on a cell-mediated response to allogeneic cells, i.e. in a local graft-versus-host reaction (LGVHR). Mice were primed with allogeneic cells in the presence of various amounts of the 40 kDa or 60 kDa PF, or liver extract (LE) as control. Six days later, their spleen cells were injected into the footpads of F1 recipients. Precise dose-response curves were established and the kinetics of the GVH response were carefully followed. Parallel with the modulation of PFC responses, the 40 kDa PF caused a potent inhibition of the LGVHR, while the 60 kDa PF greatly enhanced it. Both effects were specific for the alloantigens injected with the PF. Furthermore, we showed that these modulations were observed whatever the intensity of the GVH reaction, which varied according to the number of primed spleen cells transferred. This report also demonstrates that these PF can be greatly enriched by passage over affinity columns made of insolubilized lectins. The 40 kDa PF is retained on and can be eluted from columns of insolubilized concanavalin A (Con A) or wheat germ agglutinin (WGA), which indicates that it is a glycoprotein. Conversely, the 60 kDa PF does not bind to any of the above lectins and is probably not a glycoprotein. This biochemical purification step is also a good procedure for obtaining an even cleaner separation of the two fractions from each other. Thus, this paper demonstrates that both PF have important regulatory properties on specific cellular immune responses.
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PMID:Antigen-specific modulation of graft-versus-host reactions by two distinct placental factors. 246 25

This review covers significant developments in the understanding of the biochemistry and clinical pharmacology of Interleukin-2 (IL-2) that were achieved from 1984 through September 1986. These include developments in the molecular biology of IL-2 and its receptors. Human IL-2 was cloned and sequenced by Taniguchi et al. in 1983. The gene for human IL-2 is located on the long arm of chromosome 4. The secondary structure of the gene is predominantly alpha helix. The mature gene product is a 133 amino acid glycoprotein with a molecular weight of 15,420 Daltons. The IL-2 receptor was revealed to be a glycoprotein of 272 amino acids. The mature receptor has a molecular weight of 55,000 Daltons. A more precise understanding of the mechanism of action IL-2, in particular its role in the induction of the IL-2 receptor, and aspects of the control of IL-2 production was also achieved. Metabolic and morphologic studies have revealed that activation of the T-cell antigen receptor renders the cells responsive to IL-2, but does not move them through the cell cycle. Rather, it appears that IL-2 stimulates G1 progression to S phase ie. blastic transformation. During this progression the cellular proto-oncogene c-myb is induced transiently to 6 to 7 times basal levels. The role of IL-2 as a growth factor for several subsets of T cells has been confirmed, and a new role as a growth factor for B cells was defined. Most importantly, IL-2 was shown to be directly mitogenic for and to expand subpopulations of peripheral blood cells, termed lymphokine-activated killer (LAK) cells and tumor-infiltrating lymphocytes (TIL). A number of pathologies of IL-2 production or activity have been defined, including Hodgkin's disease, graft versus host disease, systemic lupus erythematosus, lepromatous leprosy, acquired immune deficiency syndrome, and adult T cell leukemia. Murine and human in vivo studies reviewed here have revealed significant parameters of the therapeutic potential as well as the toxicity of this growth factor. Finally, the modulation of IL-2 receptors on human PBL's by thymosin fraction 5 and thymosin alpha 1 suggests that it might be possible to up-regulate IL-2 receptor expression in certain disease states and thus increase the efficacy of IL-2.
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PMID:Recent advances in the understanding of the biochemistry and clinical pharmacology of interleukin-2. 354 63

Major histocompatibility complex-determined antigens were originally identified as a consequence of their ability to induce rejection of tissue grafts between organisms that are not genetically identical. Currently, much is known about their biochemical nature and intended biological functions. Major histocompatibility complex antigens are found on three types of glycoprotein molecules. One type (class I) is associated with beta 2-microglobulin in the cell-surface membranes of all body tissues and includes H-2K and D molecules in mice and HLA-A, B, and C molecules in humans. These antigens are the major cause of rejection of transplanted organs. The other two types of glycoproteins (class II) are noncovalently linked to each other, are found in the cell-surface membranes of a limited number of cell types, and include H-2-Ia molecules in mice and HLA-DR molecules in humans. They are noted for their ability to elicit graft-versus-host disease. Both class I and class II molecules are, however, important for the immune recognition of pathogens, although the types of responses they modulate are different. Class I molecules are important in the recognition of cell-surface antigens, whereas class II molecules control responsiveness to soluble antigens. Major histcompatibility complex-encoded molecules are also involved in certain autoimmune diseases. As our understanding of major histocompatibility complex-controlled immune responsiveness broadens and hybridoma and gene-cloning technology advances, specific enhancement of desired immune responses and suppression of deleterious ones will most likely become possible.
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PMID:Immune-response gene-associated antigens (Ia/DR). Structure and function in immunologically related diseases. 640 18

CAMPATH-1 (CDw52) antibodies recognize a very small lipid-anchored glycoprotein that is expressed on the surface of human lymphocytes. They are remarkably lytic with human complement. In addition, CAMPATH-1G (rat IgG2b) and CAMPATH-1H (human IgG1) bind to human Fc receptors and are very effective for cell lysis in vivo. CAMPATH-1M (rat IgM) and CAMPATH-1G have been used to control GVHD and graft rejection in bone marrow transplantation by depletion of the T cells of the donor and recipient. Depletion of donor T cells alone gave excellent control of GVHD but up to 20% of the patients transplanted from HLA-matched siblings, and 51% of those transplanted from nonsibling donors, experienced graft failure caused by immunological rejection. Graft rejection could be partly overcome by additional immunosuppression either with CsA or total lymphoid irradiation (TLI). More effective was the use of CAMPATH-1G in vivo to deplete residual host lymphocytes. Preliminary results from current protocols of antibody depletion give two year actuarial leukemia-free survival as good as or better than similar studies with conventional GVHD prophylaxis, as well as a decreased morbidity from chronic GVHD, although engraftment was delayed by about 5 days. We propose that prophylactic T cell depletion with CAMPATH-1 antibodies is a simple and valid alternative to drug-based immunosuppression that may be particularly applicable to patients with acute leukemia or nonmalignant diseases transplanted from HLA-matched siblings as well as any patients transplanted from unrelated donors. Future developments of antibody-based immunosuppression may allow the extension of marrow transplantation for tolerance induction to organ transplants or in autoimmune diseases.
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PMID:CAMPATH-1 monoclonal antibodies in bone marrow transplantation. 792 4

A13D8 is a monoclonal IgM antibody that identifies an as yet unknown antigen that is expressed intensely and ubiquitously in enterocytes. Immunohistochemically, it was shown that A13D8 has a granular supranuclear staining pattern in columnar epithelial cells of normal small intestine and the colon. In ulcerative colitis, this staining pattern was retained. However, during active inflammation, staining also was evident in goblet cells. To test whether this feature of goblet cell staining was unique to ulcerative colitis, tissue sections from a variety of colitides were examined. Crohn's disease, infectious colitis, and ischemic colitis had similar staining patterns to that seen with ulcerative colitis. There was significantly more inflammation in the biopsies from patients with ulcerative colitis and Crohn's disease with positive goblet cell staining than in the biopsies from those patients with negative goblet cell staining. Almost all positive goblet cell staining in ulcerative colitis and Crohn's disease occurred in biopsies that were actively inflamed, whereas there was rare staining in biopsies that were noninflamed (regardless of whether or not there was active inflammation elsewhere in the colon). Ileal goblet cells stained positively with A13D8 only in cases of active ileitis. In cases of collagenous colitis, with comparable degrees of inflammation to that seen in ulcerative colitis and Crohn's disease, there was rarely goblet cell staining and in graft-versus-host disease goblet cell staining of A13D8 was not observed. The binding of A13D8 to tissue sections was completely inhibited by N-acetyl-D-galactosamine. These results, in conjunction with immunochemical studies, suggest that the antibody recognizes an N-acetyl-D galactosamine-containing epitope on a glycoprotein(s). In conclusion, these data suggest that A13D8 recognizes a glycoprotein expressed by intestinal columnar epithelial cells and during specific inflammatory states, particularly those associated with a neutrophilic infiltrate, becomes evident in goblet cells. Further work is required to establish the exact nature of this molecule and whether it is a pro- or anti-inflammatory factor.
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PMID:The differential expression of a novel intestinal epithelial glycoprotein in various forms of inflammatory bowel disease. 870 31

The validity of biochemical indices routinely used for nutritional assessment was evaluated in patients undergoing allogeneic bone marrow transplantation for hematologic malignancies. Sixteen patients received total parenteral nutrition (TPN) for 15 days (35 kcal kg.body wt-1.day-1; 1.4 g amino acid.kg body wt-1.day-1) starting 1 day after transplantation. Nutritional status was evaluated before and after the TPN period by determining anthropometric (body weight, triceps skinfold thickness, and midarm circumference) and biochemical (transferrin, prealbumin, ceruloplasmin, and C3c) indices. Anthropometric indices, which were within the normal range before TPN, were not changed on day 15; transferrin and prealbumin concentrations significantly (p = 0.03) decreased whereas ceruloplasmin and C3c significantly (p = 0.03) increased. The levels of acute-phase proteins (alpha-1-acid glycoprotein, alpha-1-antitrypsin, and C-reactive protein), determined in 8 of the 16 patients at the same time intervals, were increased after 15 days of TPN and were significantly inversely correlated with transferrin and prealbumin. On the basis of these data, it appears that biochemical indices are not sufficiently reliable in the nutritional assessment of bone marrow transplantation patients because the levels of these substances are markedly affected by the acute-phase response secondary to febrile episodes and graft-versus-host disease, which frequently complicate transplantation.
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PMID:Biochemical indices may not accurately reflect changes in nutritional status after allogeneic bone marrow transplantation. 874 94

A prospective study of the spectrum of glycoprotein B (gB) and glycoprotein H (gH) genotypes of cytomegalovirus (CMV) was conducted with five categories of patients: viremic bone marrow-transplant (BMT) recipients who developed CMV disease after BMT (n = 22), viremic BMT recipients without CMV disease (n = 11), viremic renal-transplant recipients who developed CMV disease after transplantation (n = 14), viremic renal-transplant recipients without CMV disease (n = 13), and premature babies with asymptomatic congenital CMV infections (n = 13). Genotypic stability was observed because the gB and gH genotypes of multiple isolates obtained from a single patient were identical. The distribution of gH genotypes in patients of all groups studied were similar. However, there was a unique distribution of the gB genotype in the first category of patients, i.e., BMT recipients with CMV disease, which was distinct from those of all other categories (P < 0.05). CMV isolates from 54% of BMT recipients with CMV disease exhibited gB type 2, while isolates from 46, 50, 69, and 77% of the BMT recipients without CMV disease, renal-transplant recipients with and those without CMV disease, and premature babies with congenital CMV infection, respectively, were of gB type 1. An analysis of the clinical characteristics of BMT recipients with CMV disease indicated that all underwent either an allogeneic or matched, unrelated donor transplant, and half had severe acute graft-versus-host disease (grades 2 to 4). The statistically significant genotypic difference between CMV isolates from BMT recipients with and without CMV disease was not observed between isolates from renal-transplant recipients with and without CMV disease. We speculate that differences in pathogenesis in different patient groups might account for these observations. These findings would also facilitate decision making about the choice of recombinant CMV glycoprotein vaccine required to immunize transplant donors and the subsequent adoptive transfer of immunity to BMT recipients. When the source of CMV DNA required for genotyping was investigated among renal-transplant recipients, direct use of peripheral blood leukocytes was 95% effective compared to the effectiveness of cells obtained from conventional culture of peripheral blood specimens.
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PMID:Distinct genotypic distributions of cytomegalovirus (CMV) envelope glycoprotein in bone marrow and renal transplant recipients with CMV disease. 930 97

Thrombotic complications are observed in patients undergoing bone marrow transplantation despite thrombocytopenia and impaired coagulation due to liver function disturbances. Endothelial cell damage which is involved in the pathogenesis of major transplant related complications like graft-versus-host disease, veno-occlusive disease, sepsis or microangiopathy may be a contributing factor. Little is known about platelet function in bone marrow transplant recipients. In order to study functional alterations in circulating platelets we investigated unstimulated and ADP-stimulated platelets of 10 bone marrow transplant recipients ex vivo by flow cytometry in a pilot study using a panel of monoclonal antibodies to characterize changes in membrane glycoproteins. Samples were collected before and during conditioning and at three timepoints after engraftment. 10 healthy volunteers served as controls. Platelets of bone marrow transplant recipients showed partly a significant, higher expression of surface bound fibrinogen, activated fibrinogen receptor, and glycoprotein Ib as compared to controls. P-selectin, a marker of platelet degranulation was significantly elevated after ADP-induced stimulation at all timepoints compared to controls. Only marginal differences were found for GP IIb/IIIa surface expression. The data point to an increased platelet activation state in bone marrow transplant recipients which might contribute to the thrombotic phenomena observed in these patients.
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PMID:Changes in platelet membrane glycoproteins before bone marrow transplantation and after engraftment--a pilot study. 975 3

The facilitating cell is a rare CD8+ bone marrow subpopulation that can enhance allogeneic hematopoietic stem cell engraftment across complete major histocompatibility complex barriers without inducing acute graft-versus-host disease. Here we describe a CD3epsilon-associated complex on the facilitating cell surface that consists of the T-cell receptor beta-chain disulfide-linked to a previously unknown 33-kilodalton glycoprotein. Provisionally called FCp33, this glycoprotein does not represent any of the known protein chains or surrogates associated with CD3-T-cell receptor beta. Expression of this CD3-T-cell receptor beta-FCp33 complex directly correlates with the facilitating cell's functional ability to enhance allogeneic stem cell engraftment in vivo.
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PMID:Characterization of a newly discovered T-cell receptor beta-chain heterodimer expressed on a CD8+ bone marrow subpopulation that promotes allogeneic stem cell engraftment. 1093 20

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