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)

(C57BL/6 x DBA/2)F1 (B6D2F1) mice inoculated with parental DBA/2 (D2) splenocytes develop chronic stimulatory graft-versus-host reaction with many of the clinical manifestations of systemic lupus erythematosus. This investigation tested the ability of 8-methoxypsoralen (8-MOP) and ultraviolet A (UVA) light-treated D2 cells, primed to contain an expanded population of T cells specific for B6D2F1 major histocompatability complex antigens, to treat and/or prevent such systemic lupus erythematosus-like disease. 8-MOP/UVA-treated cells from B6D2F1-primed D2 donors were inoculated into B6D2F1 recipients weekly six to ten times, either before or after initiating graft-versus-host disease with normal D2 cells. A third group of B6D2F1 recipients were vaccinated weekly six times before disease initiation using 8-MOP/UVA-attenuated, B6D2F1-primed D2 cells that had been secondarily stimulated and expanded in vitro in the presence of irradiated B6D2F1 targets and interleukin-2. Control B6D2F1 mice were vaccinated with 8-MOP/UVA-treated D2 cells stimulated in vitro and/or in vivo with (C3H/HeJ x DBA/2)F1 cells. Only mice vaccinated with 8-MOP/UVA-attenuated D2-anti-B6D2F1 cells that were secondarily stimulated and expanded in vitro exhibited differences from controls when measured by the clinical parameters of ascites formation, and mean survival (p < 0.025). These groups also differed significantly in mean antinuclear antibody titer measured 14 weeks after disease initiation (p < 0.05). At 28 weeks, histologic evidence of systemic lupus erythematosus-like kidney disease was found only in the control group. These results indicate that photochemically attenuated D2-anti-B6D2F1 cells primed in vivo and secondarily stimulated and expanded in vitro are capable of vaccinating recipients against progression of graft-versus-host reaction-initiated systemic lupus erythematosus-like disease.
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PMID:Specific suppression of lupus-like graft-versus-host disease using extracorporeal photochemical attenuation of effector lymphocytes. 782 72

Photopheresis is an extracorporeal photochemotherapy (ECP) used for the treatment of oncological and autoimmune diseases. Lymphocytes are drawn from the patients by leukapheresis, treated with 8-methoxypsoralen (8-MOP) and ultraviolet light A (UVA) in an extracorporeal system; then, reinfused to the host. Because skin exposure to 8-MOP and UVA (PUVA) has been shown to improve cutaneous GVHD, we evaluated in a pilot study, if ECP might be beneficial for patients with GVHD unresponsive to conventional protocols. In this study, we enrolled 9 children or young adults, with acute (no = 1) or chronic extensive GVHD (no. = 8). A significant improvement was observed in three of the 5 patients with scleroderma-like lesions and in one patient with severe liver involvement. Karnofsky performance score improved from 30-50% to 90% in the 4 responders. The better control of GVHD in these patients allowed a reduction of the immunosuppressive therapy that was, finally, discontinued in two. No significant side effects were observed during ECP. Our results suggest that ECP is a nonaggressive treatment that may benefit patients with c-GVHD unresponsive to standard immunosuppressive therapies.
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PMID:Extracorporeal photochemotherapy for the treatment of graft-versus-host disease. 893 25

Photopheresis (ECP) is a new type of photochemotherapy, used for the treatment of oncological and autoimmune diseases. Lymphocytes are drawn from the patients by leukapheresis, treated with 8-methoxypsoralen (8-MOP) and ultraviolet light A (UVA) in an extracorporeal system and then reinfused. Skin exposure to 8-MOP and UVA (PUVA) has been shown to relieve cutaneous symptoms of graft-versus-host disease (GVHD) in bone marrow transplant (BMT) recipients. ECP, which is similar in some ways to PUVA, has been used in this study to treat four paediatric patients who developed chronic GVHD following BMT and in whom GVHD had failed to respond to conventional immunosuppressive therapy. Following ECP, skin lesions cleared almost completely and pulmonary function tests improved in two of three patients with cutaneous and lung involvement. Serum bilirubin and transaminases gradually normalized, and gammaGT decreased considerably in the remaining patient who had a severe cholestatic hepatopathy. The Karnofsky performance score increased to 90% in the three patients with positive responses to ECP and remained unchanged (40%) in the patient who did not respond. Immunosuppressive therapy was reduced in three patients and eventually discontinued in two. No significant side-effects were observed during the treatment. Our results suggest that ECP is a non-aggressive treatment that may benefit patients with chronic GVHD who do not respond to standard immunosuppressive therapy.
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PMID:Photopheresis in paediatric patients with drug-resistant chronic graft-versus-host disease. 921 88

Photopheresis or extracorporeal photochemotherapy (ECP) is a novel immunomodulatory therapy based upon pheresis of light-sensitive cells. Whole blood is removed from patients who have previously ingested the photosensitizing agent 8-methoxypsoralen (8-MOP) followed by leukapheresis and exposure of the 8-MOP containing white blood cells (WBCs) extracorporeally to an ultraviolet A (UVA) light source prior to their return to the patient. In 1988, the Food and Drug Administration (FDA) approved photopheresis for the treatment of cutaneous T-cell lymphoma (CTCL). Treatment of CTCL with photopheresis has been reported in over 300 patients worldwide. Photopheresis has also demonstrated encouraging results in the treatment of solid organ transplant rejection, graft versus host disease, scleroderma, and other autoimmune diseases although fewer patients have been studied. This review will focus on the North American experience with photopheresis.
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PMID:The North American experience with photopheresis. 1060 33

Extracorporeal photochemotherapy was developed for treatment of cutaneous T-cell lymphoma (CTCL). Several independent and multicenter trials using lymphapheresis with 8-methoxypsoralen (8-MOP) activated by shortwave ultraviolet light have demonstrated the clinical benefit of this modality for treatment of advanced CTCL. Recently, trials using the combination of photochemotherapy and recombinant interferons or photochemotherapy and low doses of methotrexate have been initiated to enhance the response to photopheresis. Also, a multicenter study evaluating a new 8-MOP formulation that could be added into the leukocyte/plasma fractions prior to ultraviolet exposure is in progress in CTCL patients. The applications of photochemotherapy in the treatment of other disorders of T-cells are being examined in ongoing clinical trials. Pilot studies have been completed and controlled trials are under way in patients with autoimmune diseases. Important information has emerged regarding the potential use of photopheresis for prevention of solid organ allograft rejection. Several investigators have undertaken pilot studies comparing the efficacy of photochemotherapy with the conventional immunosuppressive therapy for treatment of cardiac transplant rejection. It is hoped that photochemotherapy can induce an immune tolerance in the allograft setting and therefore eliminate or reduce the use of cyclosporin. Other considerations have led to the use of photochemotherapy in the prevention and treatment of graft-versus-host disease after alloeneic and unrelated donor marrow transplantation. Randomized studies are required to evaluate the impact of photochemotherapy on the course of graft-versus-host disease and overall survival.
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PMID:Extracorporeal photochemotherapy: a scientific overview. 1015 61

Photopheresis or extracorporeal photochemotherapy (ECP) is a new immunomodulatory therapy in which a patient's leukocytes are exposed extracorporeally to 8-methoxypsoralen (8-MOP) and ultraviolet A (UVA) light. Although it is used for the treatment of cutaneous T cell lymphoma, graft-versus-host disease, and several autoimmune diseases, with efficacy and safety reported in almost all studies, the mechanisms by which ECP exerts its beneficial effects are still unclear. As cellular targets of this procedure are numerous, we investigated the effects of 8-MOP and UVA light on stromal precursors and mature stromal layers. Human bone marrow stromal cell layers were established in long-term bone marrow culture medium from normal marrow mononuclear cells. Normal marrow mononuclear cells were incubated with 8-MOP and/or exposed to UVA light (PUVA treatment) before culturing. A control without 8-MOP and UVA was also included in the study. Apoptosis induction was evaluated using annexin V following 7 days after PUVA. After 4-6 weeks of culture, stromal layers were examined under a phase-contrast microscope to identify structural differences between PUVA-treated and control stroma. To determine whether PUVA treatment affected stromal regulation of adherent hematopoietic cell survival, mature stromal layers, incubated with 8-MOP and exposed to UVA light, were cocultured with nonadherent mononuclear cells from normal marrow. After 24 h, the percentage of apoptotic hematopoietic cell precursors was quantified by flow cytometry. This study provides evidences that the in vitro exposure of human stromal cell precursors to UVA light, in the presence of 8-MOP, inhibits stromal layer generation by inducing apoptosis, as evidenced by annexin V staining following 7 days of culture. Here, we show an additional cell target for this psoralen following UVA irradiation. However, in a second set of experiments, PUVA treatment did not affect the stromal capacity to support hematopoiesis in culture. Our results can contribute to a better definition of ECP mechanisms of action for future development of experimental designs and clinical applications of this intriguing procedure.
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PMID:Assessment of 8-methoxypsoralen and ultraviolet a light effects on human stroma generation and function. 1701 38

Extracorporeal photopheresis (ECP) is an important second-line therapy for graft-versus-host disease. A central therapeutic mechanism is the induction of immune tolerance through apoptosis in patient's leukocytes, caused by ex vivo incubation with 8-methoxypsoralen (8-MOP) and subsequent UVA irradiation. We hypothesized that different 8-MOP incubation times and an additional 8-MOP removal step could influence the apoptosis kinetics of leukocytes in general and in particular could lead to different apoptotic levels in the leukocyte subpopulations. After 8-MOP/UVA treatment of human leukocytes, cells were cultured and the percentage of annexin V positive cells from several leukocyte subpopulations was determined. Only regulatory T cells (Tregs) were relatively resistant to 8-MOP/UVA induced apoptosis. When cells were incubated for 30 minutes with 8-MOP prior to UVA exposure, higher percentages of annexin V positive cells were detected on day 1 and day 2 after treatment. Removal of 8-MOP after UVA exposure caused no significant changes in the apoptosis kinetics during the 72 h culture period compared with unwashed cells. The results of our in vitro study indicate that it could be possible to adjust the apoptosis kinetics via modulation of the 8-MOP incubation time. In further in vivo studies it should be elucidated to which extent different apoptosis kinetics influence the therapeutic effect of ECP since steady-state apoptosis levels are probably important for establishing a long lasting immune tolerance. Furthermore we found that Tregs, according to their well-known tolerogenic function, are more resistant to apoptosis after 8-MOP/UVA treatment compared to GvHD inducing T cell populations.
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PMID:In vitro effects of different 8-methoxypsoralen treatment protocols for extracorporeal photopheresis on mononuclear cells. 2868 Mar 25

Extracorporeal photopheresis (ECP), a modality that exposes isolated leukocytes to the photosensitizer 8-methoxypsoralen (8-MOP) and ultraviolet-A (UV-A) light, is used to treat conditions such as cutaneous T-cell lymphoma and graft-versus-host disease. However, the current procedure of ECP has limited selectivity and efficiency; and produces only partial response in the majority of treated patients. Additionally, the treatment is expensive and time-consuming, so the improvement for this modality is needed. In this study, we used the concept of photodynamic therapy (PDT) with 5-aminolevulinic acid (ALA), a precursor of an endogenously synthesized photosensitizer protoporphyrin IX (PpIX) in combination with blue light to explore the possibility of targeting activated human blood T cells ex vivo. With various T-cell activation protocols, a high ALA-induced PpIX production took place in activated CD3⁺, CD4⁺CD25⁺, and CD8⁺ T cell populations with their subsequent killing after blue light exposure. By contrast, resting T cells were much less damaged by the treatment. The selective and effective killing effect on the activated cells was also seen after co-cultivating activated and resting T cells. Under our clinically relevant experimental conditions, ALA-PDT killed activated T cells more selectively and efficiently than 8-MOP/UV-A. Monocyte-derived dendritic cells (DCs) were not affected by the treatment. Incubation of ALA-PDT damaged T cells with autologous DCs induced a downregulation of the co-stimulatory molecules CD80/CD86 and also upregulation of interleukin 10 (IL-10) and indoleamine 2,3-dioxygenase expression, two immunosuppressive factors that may account for the generation of tolerogenic DCs. Overall, the data support the potential use of ALA-PDT strategy for improving ECP by selective and effective killing of activated T cells and induction of immune tolerance.
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PMID:Selective Killing of Activated T Cells by 5-Aminolevulinic Acid Mediated Photodynamic Effect: Potential Improvement of Extracorporeal Photopheresis. 3204 51