Effect on cytokine release and graft-versus-host disease of different anti-T cell antibodies during conditioning for unrelated haematopoietic stem cell transplantation.
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Three different types of anti-T cell antibody were used in patients undergoing haematopoietic stem cell transplantation (HSCT) with an HLA-A, -B and -DR compatible unrelated donor: ATG-Fresenius (ATG-F) (n = 26), Thymoglobuline (TMG) (n = 61) and OKT-3 (n = 45). The groups were comparable regarding diagnosis, stage, age, conditioning and GVHD prophylaxis, Adverse events were less frequent after ATG-F treatment. Levels of IL-2, IL-6, IFN-gamma, TNF-alpha and GM-CSF were increased after OKT-3 infusion. In multivariate analysis OKT-3 treatment (P = 0.01), G-CSF treatment (P = 0.02) and a cell dose >/=2.7 x 108/kg (P = 0.03) gave a faster engraftment. Acute GVHD grades II-IV occurred in 25% of the ATG-F patients, 12% of the TMG-patients and 43% (P < 0.001 vs TMG) of the OKT-3 patients. OKT-3 was associated with acute GVHD in multivariate analysis. TRM was 26% using TMG as compared to 43% in the OKT-3 group (P = 0.03). Patient survival at 4 years was 63%, 50% and 45% in the ATG-F, TMG and OKT-3-treated patients, respectively (NS). Relapses were 8%, 49% and 34%, respectively (ATG-F vs TMG, P = 0.03). Relapse-free survivals were 61%, 40% and 37% (NS). Among CML patients the probability of relapse was 61% in TMG-treated patients, while no patients relapsed in the other two groups. To conclude, the type of anti-T cell antibody affects GVHD and relapse after HSCT using unrelated donors. (+info)
A prospective randomized trial of Filgrastim (r-metHuG-CSF) given at different times after unrelated bone marrow transplantation.
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A study was done to compare treatment with Filgrastim (r-metHuG-CSF) given at three different times after unrelated bone marrow transplantation (BMT). Sixty-nine patients grafted with HLA-A, -B and -DR-compatible unrelated bone marrow were randomized to Filgrastim (5 microg/kg/day) starting on day 0 (n = 23), day +5 (n = 23) or day +10 (n = 23) after BMT. No significant differences were detected in hematological recovery, days with fever, days on antibiotics, incidence of bacteremia or need for erythrocyte, platelet and granulocyte transfusions between the three groups. Patients given Filgrastim starting on day 0, day +5 or day +10, respectively, reached an absolute neutrophil count (ANC) >0.5 x 109/l on a median of 17, 16 and 16 days after BMT. Starting Filgrastim treatment on day +10, rather than on day 0, reduced the costs of Filgrastim by $1060, with no significant change in the median number of days-to-hospital discharge in the three Filgrastim-treated groups. The incidences of acute and chronic GVHD, transplantation-related mortality, relapse, leukemia-free survival and patient survival (PS) were similar in all groups. (+info)
CD40 ligand blockade induces CD4+ T cell tolerance and linked suppression.
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The CD40-CD40 ligand (CD40L) interaction is a key event in the initiation of an adaptive immune response, and as such the therapeutic value of CD40L blockade has been studied in many experimental models of tissue transplantation and autoimmune disease. In rodents, transplantation of allogeneic tissues under the cover of anti-CD40L Abs has resulted in prolonged graft survival but not tolerance. In this report, we show that failure to induce tolerance probably results from the inability of anti-CD40L Abs to prevent graft rejection elicited by the CD8+ T cell subset. When the CD8+ T cell population is controlled independently, using anti-CD8 Abs, then tolerance is possible. Transplantation tolerance induced by anti-CD4 mAbs can often be associated with dominant regulation, manifested as infectious tolerance and linked suppression, both of which are mediated by CD4+ T cells. We show here that CD4+ T cells rendered tolerant using anti-CD40L therapy exhibit the same regulatory property of linked suppression, as demonstrated by their ability to accept grafts expressing third party Ags only if they are expressed in conjunction with the tolerated Ags. This observation of linked suppression reveals a hitherto undocumented consequence of CD40L blockade that suggests the tolerant state is maintained by a dominant regulatory mechanism. Our results suggest that, although anti-CD40L Abs are attractive clinical immunotherapeutic agents, additional therapies to control aggressive CD8+ T cell responses may be required. (+info)
Lack of association between duration of breast-feeding or introduction of cow's milk and development of islet autoimmunity.
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The hypothesis that early exposure to cow's milk or lack of breast-feeding predisposes to type 1 diabetes remains controversial. We aimed to determine prospectively the relationship of, first, duration of exclusive breast-feeding and total duration of breast-feeding, and second, introduction of cow's milk protein as infant formula, cow's milk, or dairy products, to the development of islet antibodies in early life. Some 317 children with a first-degree relative with type 1 diabetes were followed prospectively from birth for 29 months (4-73). Mothers kept a home diary and answered infant feeding questionnaires at 6-month intervals. No systematic feeding advice was given. Insulin autoantibodies (normal range <5.5%), anti-GAD antibodies (<5.0 U), and anti-IA2 antibodies (<3.0 U) were measured at 6-month intervals. Cox proportional hazards model of survival analysis detected no significant difference between children who did not develop islet antibodies (225 of 317 [71%]), children with one islet antibody raised once (52 of 317 [16.4%]), children with one antibody raised repeatedly (18 of 317 [5.7%]), or children with two or more antibodies raised (22 of 317 [6.9%]), in terms of duration of exclusive breast-feeding, total duration of breast-feeding, or introduction of cow's milk-based infant formulas, cow's milk, or dairy products (relative risk: 0.91-1.09). Four of the children with two or more islet antibodies developed type 1 diabetes. We conclude that there is no prospective association between duration of breast-feeding or introduction of cow's milk and the development of islet autoimmunity in high-risk children. (+info)
HLA-DRB1 leprogenic motifs in nigerian population groups.
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Amino acid residues involved in the peptide binding groove of HLA-DRB1 alleles were examined in three Nigerian ethnic groups with leprosy (n = 287) and 170 controls to determine the role of DRB1 alleles in disease outcome with Mycobacterium leprae. Nine positively charged motifs and two others with neutral charge to the binding groove were detected. These motifs occurred more frequently in leprosy (leprogenic) than was expected by chance (P < 0.0001). In contrast, five motifs with net negative or 'modified' neutral charges to the pocket were negatively associated with leprosy. We conclude that clinical outcome of infection with M. leprae is largely determined by a shared epitope in DRB1 alleles marked by several motifs. These motifs occur in otherwise normal DRB1 alleles, characterized by net positive or neutral charges in the binding groove. We hypothesize that these polarities cause poor binding of DRB1 to M. leprae. On presentation, the signal via the T cell receptor results in muted cell-mediated immunity. The resulting response translates to various forms of leprosy depending on degree of charge consonance between M. leprae and host DRB1 allele. Other factors within or without the HLA complex, such as the T cell receptor repertoire, may also influence the resulting disease. (+info)
The economic implications of HLA matching in cadaveric renal transplantation.
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BACKGROUND: The potential economic effects of the allocation of cadaveric kidneys on the basis of tissue-matching criteria is controversial. We analyzed the economic costs associated with the transplantation of cadaveric kidneys with various numbers of HLA mismatches and examined the potential economic benefits of a local, as compared with a national, system designed to minimize HLA mismatches between donor and recipient in first cadaveric renal transplantations. METHODS: All data were supplied by the U.S. Renal Data System. Data on all payments made by Medicare from 1991 through 1997 for the care of recipients of a first cadaveric renal transplant were analyzed according to the number of HLA-A, B, and DR mismatches between donor and recipient and the duration of cold ischemia before transplantation. RESULTS: Average Medicare payments for renal transplant recipients in the three years after transplantation increased from 60,436 dollars per patient for fully HLA-matched kidneys (those with no HLA-A, B, or DR mismatches) to 80,807 dollars for kidneys with six HLA mismatches between donor and recipient, a difference of 34 percent (P<0.001). By three years after transplantation, the average Medicare payments were 64,119 dollars for transplantations of kidneys with less than 12 hours of cold ischemia time and 74,997 dollars for those with more than 36 hours (P<0.001). In simulations, the assignment of cadaveric kidneys to recipients by a method that minimized HLA mismatching within a local geographic area (i.e., within one of the approximately 50 organ-procurement organizations, which cover widely varying geographic areas) produced the largest cost savings (4,290 dollars per patient over a period of three years) and the largest improvements in the graft-survival rate (2.3 percent) when the potential costs of longer cold ischemia time were considered. CONCLUSIONS: Transplantation of better-matched cadaveric kidneys could have substantial economic advantages. In our simulations, HLA-based allocation of kidneys at the local level produced the largest estimated cost savings, when the duration of cold ischemia was taken into account. No additional savings were estimated to result from a national allocation program, because the additional costs of longer cold ischemia time were greater than the advantages of optimizing HLA matching. (+info)
Production of a high level of specific IgG4 antibody associated with resistance to albendazole treatment in HLA-DRB1*0901-positive patients with strongyloidiasis.
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Strongyloidiasis, a human intestinal infection with Strongyloides stercoralis, is difficult to treat with drugs. The factors influencing this phenomenon remain unclear. To determine the host factors involved in response to treatment, 46 patients with strongyloidiasis were treated with albendazole, followed-up for 1 year, and separated into two groups: cured and non-cured. Serum levels of specific IgA, IgE, IgG, IgG1, and IgG4 antibodies were estimated using S. stercoralis antigen. Significantly higher titers of IgG4 antibody were observed in the non-cured group than in the cured group (P = 0.016). A total of 88 patients were typed for HLA-DRB1 alleles and analyzed for serum levels of antibody. The S. stercoralis-specific IgG4 antibody titers were significantly higher in the HLA-DRB1*0901-positive group than in the negative group (corrected P = 0.044). These results suggest that HLA-DRB1*0901 is a possible genetic marker for resistance to treatment of S. stercoralis that is associated with elevation of S. stercoralis-specific IgG4 antibody titer. (+info)
Irradiated donor leukocytes promote engraftment of allogeneic bone marrow in major histocompatibility complex mismatched recipients without causing graft-versus-host disease.
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Graft rejection in allogeneic bone marrow transplantation (BMT) can occur when donor and recipient are mismatched at one or more major histocompatibility complex (MHC) loci. Donor T cells can prevent graft rejection, but may cause fatal graft-versus-host disease (GVHD). We tested whether irradiation of allogeneic donor lymphocytes would preserve their graft-facilitating activity while inhibiting their potential for GVHD. Infusions of irradiated allogeneic T cells did not cause GVHD in MHC-mismatched SJL --> (SJL x C57BL6) F1, C57BL6 --> B10.RIII, and C57BL6 --> B10.BR mouse donor --> recipient BMT pairs. The 60-day survival among MHC-mismatched transplant recipients increased from 2% (BM alone) to up to 75% among recipients of BM plus irradiated allogeneic splenocytes. Optimal results were obtained using 50 x 10(6) to 75 x 10(6) irradiated donor splenocytes administered in multiple injections from day -1 to day +1. Recipients of an equal number of nonirradiated MHC-mismatched donor splenocytes uniformly died of acute GVHD. The graft facilitating activity of the irradiated allogeneic splenocytes was mediated by donor T cells. Irradiation to 7.5 Gy increased nuclear NFkappaB in T cells and their allospecific cytotoxicity. Irradiated T cells survived up to 3 days in the BM of MHC-mismatched recipients without proliferation. Recipients of irradiated allogeneic splenocytes and allogeneic BM had stable donor-derived hematopoiesis without a significant representation of donor splenocytes in the T-cell compartment. Irradiated allogeneic T cells thus represent a form of cellular immunotherapy with time-limited biologic activity in vivo that can facilitate allogeneic BMT without causing GVHD. (+info)