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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)

Latent herpes viruses such as herpes simplex virus, cytomegalovirus (CMV), and varicella zoster virus are often reactivated after bone marrow transplantation, giving rise to infections. In contrast, Epstein-Barr virus infections rarely occur. Significant mortality is induced especially by pneumonitis, most often caused by CMV. Immunosuppression and pancytopenia caused by CMV increase the risk of bacterial infections and invasive fungal infections. Herpes viruses may increase the risk of acute and chronic graft-versus-host disease (GVHD). Thus, immunity to several herpes viruses was associated with an increased risk of acute GVHD. Seropositivity for CMV in recipient and donor increased the risk of chronic GVHD. Herpes viruses were also associated with a decreased risk of leukemic relapse. CMV infection, asymptomatic CMV infection, and seropositivity for several herpes viruses were associated with a reduced incidence of relapse in different reports. In spite of this possible antileukemic effect, leukemia-free survival was unaffected by herpes virus immunity in recipients or donors.
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PMID:Correlation of pretransplant viral serology and complications of bone marrow transplantation. 132 86

The relationship between Epstein-Barr virus (EBV) and the host is profoundly disturbed by allogeneic bone marrow transplantation (BMT) because EBV resides in the recipient's hematopoietic system, which has to be destroyed in the majority of cases, and in the donor's hematopoietic system, i.e., the marrow graft. We have shown that EBV may be eradicated from some BMT recipients and that the virus may be transferred with the marrow graft. During the immediate post-transplant period oropharyngeal EBV excretion may occur which, by infecting passing B lymphocytes, may act as co-factor for acute graft-versus-host disease and help the virus to survive, despite the temporary depletion of its reservoir. The coexistence of totally different EBV strains in BMT recipients but not in healthy, untransfused controls, suggests that superinfection may by possible in case of immunodeficiency; alternatively, transfer of the virus by the reservoir itself (the B lymphocytes) might be the only effective route for superinfection. The generation of 'variant' strains during viral replication may form the basis of the vast polymorphism between wild-type EBV isolates in the population.
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PMID:Epstein-Barr virus infection in allogeneic marrow grafting: lessons for transplant physicians and virologists. 132 90

A chimeric model consisting of severe combined immune deficiency (SCID) mice populated with human peripheral blood leukocytes (PBL) has recently been described (bu-PBL-SCID mice). These reports indicated a limited reconstruction of the transferred human immune system and functionality of the human graft. Herein we described modifications of the PBL transfer method that minimize transfer time and cellular manipulations, leading to a more effective population of SCID mouse recipients. Severe combined immune deficiency mice given 15 x 10(6) PBL had human IgG serum levels reaching 2 to 5 g/l, and all mice had detectable human anti-tetanus toxoid antibody levels when they received cells from donors with such levels. These transfers were associated also with clinical and histologic evidence of graft-versus-host disease, suggesting responsiveness of the human graft in the recipients. When Epstein-Barr virus seropositive (EBV+) donors were used, the chimeric mice also showed a high incidence of fatal lymphoproliferative disease 1 to 3 months after transfer of 15 x 10(6) PBL. The high level of immunoglobulin synthesis and immunoresponsiveness of the human cells with this transfer procedure may expand the use of these chimeric mice for the manipulations of human immune cells in vivo.
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PMID:Characterization of hu-PBL-SCID mice with high human immunoglobulin serum levels and graft-versus-host disease. 133 84

Antithymocyte and antilymphocyte globulins (ALG) are currently used as immunosuppressive agents in organ transplantation and for the treatment of acute graft-versus-host disease and aplastic anemia. Since any type of immunosuppressive treatment is known to carry the risk of developing B-cell lymphoproliferative disorders, we investigated the in vitro effect of ALG on human B-cell activation and proliferation. The data demonstrate that whatever the source of lymphocytes used for ALG preparation (thymocytes, thoracic duct lymphocytes, B- or T-cell lines), (1) ALG react with both B- and T-cell lines, and (2) ALG contain antibodies specific for B cells (eg, CD21) or common to T and B cells (eg anti-beta 2-microglobulin, anti-HLA-DR, CD18, CD11a) in addition to T-cell-specific antibodies. Unlike all other T-cell mitogens tested (Concanavalin A [Con A], Pokeweek mitogen [PWM], CD3 and CD2 antibodies), ALG do not trigger B-cell differentiation into immunoglobulin-secreting cells at concentrations which induce maximum T-cell proliferation. This effect could be attributed to a direct interaction of ALG with B lymphocytes as shown by the capacity of ALG to block the response of purified B cells to a variety of activators. Furthermore, all the ALG tested were shown to inhibit the proliferation of six of the seven Epstein-Barr virus (EBV)-transformed lymphoblastoid cell lines and six of the seven Burkitt's lymphoma cell lines studied. This selective B-cell antiproliferative property of ALG was not reproduced with CD11a, CD18, CD21, CD24, or anti-HLA-DR monoclonal antibodies (MoAbs). These results suggest that, although suppressing T-cell responses, ALG treatment may directly control B cell proliferation to some extent, in keeping with the relatively low risk of posttransplant lymphoproliferative disorders reported with ALG.
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PMID:Antiproliferative effect of antilymphocyte globulins on B cells and B-cell lines. 156 43

Seventy-one patients with hematologic malignancies received bone marrow from a histocompatible sibling (n = 48) or a partially matched relative (n = 23) that had been depleted of CD5+ T cells with either an anti-CD5 mooclonal antibody (MoAb) plus complement (anti-Leu1 + C) or an anti-CD5 MoAb conjugated to ricin A chain (ST1 immunotoxin [ST1-IT]). These patients received intensive chemoradiotherapy consisting of cytosine arabinoside, cyclophosphamide, and fractionated total body irradiation. Both anti-Leu1 + C and ST1-IT ex vivo treatments effectively depleted bone marrow of T cells (97% and 95%, respectively). Overall, primary and late graft failure each occurred in 4% of evaluable patients. The diagnosis of myelodysplasia was a significant risk factor for graft failure (P less than .001), and if myelodysplastic patients were excluded, there were no graft failures in major histocompatibility complex (MHC)-matched patients and 2 of 23 (8.7%) in MHC-mismatched patients. The actuarial risk of grade 2 to 4 acute graft-versus-host disease (GVHD) was 23% in MHC-matched patients and 50% in MHC-mismatched patients. In MHC-matched patients, acute GVHD tended to be mild and treatable with corticosteroids. Chronic GVHD was observed in 6 of 36 (17%) MHC-matched patients and none of 11 MHC-mismatched patients. There were no deaths attributable to GVHD in the MHC-matched group. Epstein-Barr virus-associated lymphoproliferative disorders were observed in 3 of 23 MHC-mismatched patients. The actuarial event-free survival was 38% in the MHC-matched patients versus 21% in the MHC-mismatched patients. However, if outcome is analyzed by risk of relapse, low-risk patients had a 62% actuarial survival compared with 11% in high-risk patients. These data indicate that the use of anti-CD5 MoAbs can effectively control GVHD in histocompatible patients, and that additional strategies are required in MHC-mismatched and high-risk patients.
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PMID:Selective depletion of bone marrow T lymphocytes with anti-CD5 monoclonal antibodies: effective prophylaxis for graft-versus-host disease in patients with hematologic malignancies. 171 80

Immunodeficient humans are at very high risk of developing Epstein-Barr virus (EBV)-induced lymphomagenesis. Severe combined immunodeficient mice (SCID) have been shown to develop lymphoproliferative disease (LPD) following transfer of peripheral blood leukocytes (PBL) with latent EBV. To study mechanisms of lymphomagenesis, we compared results of engraftment of PBL from normal donors and immunodeficient donors with X-linked lymphoproliferative disease (XLP). Graft-versus-host disease (GVHD) developed in 6 of 10 SCID mice 4 to 8 weeks following transfer of PBL from normal donors. In contrast, none of 9 mice engrafted with PBL from XLP patients with T-cell defects showed GVHD. LPD developed in mice regardless of the immune competence of the donors. The expression of EBV-encoded proteins, results of immunophenotyping, and karyotyping of the LPD lesions revealed lethal oligoclonal LPD owing to transfer of latent EBV in B cells in mice engrafted with PBL from seropositive donors. Polyclonal LDP developed in mice engrafted with PBL from seronegative patients which were infected with B95-8 virus 6 weeks after transfer of the cells. This model is useful for investigating mechanisms of EBV-induced LDP in immunodeficient patients.
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PMID:SCID mouse model of Epstein-Barr virus-induced lymphomagenesis of immunodeficient humans. 184 55

Epstein-Barr virus (EBV) lymphoproliferative disease is seen in patients with both congenital and acquired immunodeficiencies. Lymphoproliferative disease has been reported in 1 to 3% of renal transplant recipients. Most patients presented with solid tumor masses, rather than an infectious mononucleosis-like syndrome. About one third of cases had involvement of the renal allograft with tumor; the small intestine or central nervous system was also frequently affected. About half of the patients survived. The most frequent therapy used for survivors was decreasing the dose of immunosuppressive therapy and surgical resection of lymphoproliferative lesions. Compared with fatal cases, survivors more often had evidence of active EBV infection (primary or reactivated), received cyclosporine as the major immunosuppressive agent, had polyclonal lesions, and had B-cell hyperplasia rather than lymphoma. Lymphoproliferative disease has been described in 5 to 13% of heart transplant recipients. In our review, the cardiac allograft was not involved by disease in any patient; however, the lungs were involved in more than half of the cases. The soft tissues were frequent sites of lymphoproliferative disease. All patients had lymphoma or immunoblastic sarcoma on pathology and all had monoclonal lesions. While only 8% of patients survived, about half died from causes unrelated to lymphoproliferative disease. EBV lymphoproliferative disease has been reported in 9% of heart-lung transplant recipients. Most of the patients presented with pulmonary symptoms and the pulmonary allograft was involved in 80% of cases. The large and small intestine were frequently affected. About 60% of patients survived; survivors were treated with acyclovir and decreases in the dose of immunosuppressive drugs. Lymphoproliferative disease has been described in 2% of liver transplant recipients. In our review, the hepatic allograft was involved in one third of cases; the tonsils, kidneys, and small intestine were frequently affected. Half of the patients survived; survivors were most often treated with reduction in immunosuppressive therapy and surgical resection of lesions. Compared with fatal cases, survivors had fewer organs involved and fewer monoclonal lesions. Lymphoproliferative disease has been reported in 1 to 2% of bone marrow transplant recipients. Use of T-cell depleted bone marrow and infusion of anti-T-cell antibodies to prevent graft-versus-host disease increased the risk of EBV lymphoproliferative disease. In our review, the bone marrow was involved by lymphoproliferative disease in one third of cases; the liver, spleen, kidney, and lungs were frequently affected. About 16% of patients survived; 2 survivors were treated with infusions of monoclonal anti-B-cell antibodies and 1 received interferon alpha.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Epstein-Barr virus lymphoproliferative disease associated with acquired immunodeficiency. 184 44

Forty-six infants and children suffering from either inherited immunodeficiency disorders (Wiskott-Aldrich syndrome, functional T-cell immunodeficiency with or without HLA class II expression deficiency), malignant osteopetrosis, or Fanconi's anemia received HLA-nonidentical bone marrow transplantation (BMT) from related donors. Bone marrow was T-cell depleted to reduce the risk of graft-versus-host disease (GVHD). To prevent graft failure, a mouse monoclonal antibody specific for the CD11a-lymphocyte function-associated antigen 1 (LFA-1) molecule was infused into the patients. Eleven patients received five infusions of 0.1 mg/kg every other day from day -3 to +5. Thirty-five patients received 0.2 mg/kg daily from day -3 to +6. The overall sustained engraftment rate was 72% instead of 26.1% in a historical control group of 24 patients similarly treated except for the infusion of the anti-LFA-1 antibody. No late rejection occurred. The T-cell depletion method (E-rosetting or Campath IM plus complement) resulted in different rate of engraftment (83.3% v 57.9%, respectively, P = .05). Engraftment rate was slightly but not significantly influenced by the degree of HLA incompatibility between donor and recipient. Acute GVHD of grade II or more occurred in 35.5% of the patients and the rate of chronic GVHD was 12.9%. The overall actuarial survival rate with a functional graft is 47.3% with a mean follow-up of 28.0 months for patients with immunodeficiency and osteopetrosis, while none of the four patients with Fanconi's anemia survived. The development of full T-cell functions took on the average 6 months and of full B-cell functions 10 months. Significant infectious problems developed in the majority of the patients during the posttransplant course. Epstein-Barr virus-induced B-cell proliferative syndromes were observed in seven patients, six of whom had Wiskott-Aldrich syndrome. Correction of immunodeficiency was comparable in terms of kinetics and quality with that observed in patients with severe combined immunodeficiency undergoing HLA-nonidentical BMT. Correction of osteopetrosis appears not to be different from what has been observed after HLA-identical BMT. The in vivo use of an anti-CD11a-LFA-1 antibody as an additional immunosuppressive therapy in HLA-nonidentical BMT may thus promote engraftment and survival with correction of the primary disease in a significant number of patients with life-threatening immunodeficiency and osteopetrosis, but not with Fanconi's anemia.
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PMID:Reduction of graft failure by a monoclonal antibody (anti-LFA-1 CD11a) after HLA nonidentical bone marrow transplantation in children with immunodeficiencies, osteopetrosis, and Fanconi's anemia: a European Group for Immunodeficiency/European Group for Bone Marrow Transplantation report. 198 91

Using in-situ hybridizaiton, we showed the presence of the Epstein-Barr (EB) virus genome in epidermal cells from a patient with chronic lymphocytic leukemia and unusual cutaneous lesions characterized clinically by a maculopapular eruption and histologically by epidermal cell degeneration and lymphoid cell infiltration. Such histologic changes are similar to those seen in graft-versus-host disease. The EB virus genome was mainly detected in the basal, germinative cells of the abnormal epithelium. Specimens of our patient's healthy skin were negative. The presence of EB virus DNA in skin lesions was confirmed by polymerase chain reaction adapted for analysis of paraffin-embedded tissue. These findings indicate that EB virus can infect the human epidermis and that the viral infection may produce a distinctive cutaneous disease.
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PMID:Detection of Epstein-Barr virus in epidermal skin lesions of an immunocompromised patient. 215 77

We have shown in two allogeneic bone marrow transplant recipients that Epstein-Barr virus can be eradicated by the BMT procedure or its complications, and that these patients are susceptible to infection with a new EBV strain. This conclusion was based on a combination of EBV serology and virus strain identification ("Ebnotyping," using the size variations of 5 EBV nuclear antigens). In the present study, we conducted a serological survey of EBV infection in 153 marrow graft recipients and their donors. Ten patients who were positive for IgG antibodies against EBV viral capsid antigens prior to BMT became completely seronegative at a median of 197 days post-BMT (range 106-320 days). Four of these patients, who had received seronegative marrow, remained seronegative during prolonged periods (222 to 2105 days). Six patients had received seropositive marrow. Two of them remained seronegative during their subsequent periods of follow-up (895 and 1437 days). An additional 10 patients showed a 100-fold or greater decrease in VCA IgG antibody titers. Their titers reached a nadir of 10 (the lower limit of positive) at a median of 134 days post BMT (range 83-386 days). The serological patterns of the above 20 patients were particularly frequent among patients with chronic graft-versus-host disease; 12 of 20 patients with decreasing VCA titers (60%) developed chronic GVHD versus only 22 of 73 patients with stable or increasing VCA titers (30%). These results suggest that GVHD may contribute to the elimination of residual EBV-carrying recipient cells. Establishment of EBV-carrying lymphoblastoid cell lines (LCL) was attempted in 60 donor-recipient pairs whose cryopreserved peripheral blood mononuclear cells were available. LCL were established from 18 of 51 EBV-seropositive marrow donors and 10 of 57 seropositive recipients prior to BMT. The same EBV strain was detected in 4 of the 6 cases in which LCL could be established from both the donor and the recipient prior to BMT. The persistence of the original EBV strain was demonstrated in a recipient of a T cell-depleted graft who showed only transient hematological recovery and no GVHD, and was associated with the persistence of B cells of recipient origin.
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PMID:Serological and molecular studies of Epstein-Barr virus infection in allogeneic marrow graft recipients. 215 59


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