The goal of this study was to evaluate the epitope specificity of donor-specific HLA class I anti... more The goal of this study was to evaluate the epitope specificity of donor-specific HLA class I antibodies detected in the serum of alloimmunized from a previous renal graft patients. A total of 410 serum samples from 87 patients who had lost a previous graft, were collected every 4 months during a 2-year follow-up period. All recipients and donors were typed for class I HLA-antigens by a standard lymphocytotoxicity technique. To define the specificities of the HLA class I antibodies, two techniques were used in parallel: the antihuman globulin augmented CDC (AHG-CDC) technique and an ELISA technique. The mismatched HLA-antigens and the detected HLA class I antibodies were categorized as intra-cross-reactive group mismatches (intra-CREGs-MMs) and other-CREG-MMs. For each sensitized patient actual and at risk epitope specificities were defined. Thirty-eight patients (43.7%) had developed IgG HLA class I-specific antibodies with stable specificities against mismatched alloantigens from the previous graft. A total of 60 antibody reactivity patterns and 82 specificities against private and public epitope were recognized. Patients with only intra-CREGs-MMs produced HLA class I-specific antibodies less frequently than patients with only other-CREG-MMs, although the difference was nearly statistically significant (P=0.053). All HLA class I donor-specific antibodies were considered to have specificities against the private epitopes of the mismatched graft HLA-antigens. In the cases where HLA class I alloreactivity was spreading to more than one donor antigens, we considered that the detected antibodies had specificities against the private and the shared between the alloantigens epitope(s). No epitope-specific antibodies were detected against shared epitopes between the mismatched alloantigens and the HLA-antigens of the patients. In 11/38 cases (28.9%) HLA class I alloreactivity spreading to non-graft antigens was detected. These antibodies were directed against HLA-antigens that share epitope(s) and have strong serological reactivity with the immunogenic alloantigens. Our data show that a small number of private and public alloepitopes seem to be responsible for antibody production in patients sensitized from a previous graft. A detailed description of these HLA-epitopes, in the context of clinical graft complications, may lead to an improved organ allocation strategy.
International Journal of Laboratory Hematology, 2008
This study was designed to maximize the recovery of the desirable cell populations contained in t... more This study was designed to maximize the recovery of the desirable cell populations contained in the cord blood (CB) freezing bag, in order to optimize donor selection for adolescents and adults. To evaluate this hypothesis, high volume CB units (CBUs) were categorized into three volume collection groups (120-139, 140-159 and >or=160 ml) and were randomly split before volume reduction into two half low volume CBUs; (a) and (b). Using the SEPAX Cell Processing System, all CBUs were standardized to 26 ml. In 128 high volume split CBUs, the WBC, mononuclear cell and CD34+ cell recoveries were significantly higher (P <or= 0.05; 80%, 79.89% and 87.41% respectively) than those of the 106 high volume nonsplit CBUs (59.7%, 62.82% and 68.62% respectively), resulting in significantly higher (P <or= 0.05) mean weights of the potential recipients. The strategy of splitting high volume CBUs into two half low volume CBUs improves the recovery of the cells and is an attractive option for ex vivo expansion, in order to facilitate the CB transplantation in adults who are not eligible for single CB transplantation because of limitations of cell dose.
The goal of this study was to develop an accurate protocol whereby detection of acceptable HLA-A ... more The goal of this study was to develop an accurate protocol whereby detection of acceptable HLA-A and -B mismatches is based on epitope analysis of HLA class I specific antibodies detected in the serum of highly sensitized patients awaiting a kidney retransplant. A total of 400 serum samples from 44 highly sensitized patients with panel reactive antibodies (PRA) of > or = 60% were collected during a 3-year follow-up period. All patients had been sensitized from a previous graft. In order to define the specificities of the HLA class I specific antibodies, two techniques were used in parallel: the antihuman globulin augmented complement-dependent cytotoxicity (CDC) technique and an enzyme-linked immunoabsorbent assay (ELISA) technique. Epitope identification was based on class I HLA antigen sequencing, where the unique epitope configuration on one HLA antigen represented the private epitope of the specific HLA antigen, and epitopes shared by more than one HLA antigen represented public determinants. The epitope prediction for the immunogenic HLA epitopes was based on an MHC database. For each highly sensitized patient, antibody specificities against actual and 'at risk' epitopes were defined. Following epitope analysis, all HLA antigens that did not express the actual and/or 'at risk' immunogenic epitopes were considered as acceptable mismatches of epitope analysis. The cytotoxicity of highly sensitized patients was determined using two different panels of selected, separated T lymphocytes. HLA class I specific IgG antibodies against 69 actual and 86 'at risk' epitopes were detected. In all patients, a large number of acceptable mismatches were defined. These included a large number of HLA antigens, corresponding to both HLA-A and -B loci. Our study introduces an accurate protocol for the detection of acceptable mismatches in highly sensitized patients. According to this protocol, the detailed description of immunogenic HLA specific epitope targets, against which HLA class I specific antibodies are directed, is a useful tool for the detection of acceptable mismatches in highly sensitized patients. This may lead to reduced production of HLA class I specific antibodies and, consequently, improved graft survival.
The goal of this study was to evaluate the epitope specificity of donor-specific HLA class I anti... more The goal of this study was to evaluate the epitope specificity of donor-specific HLA class I antibodies detected in the serum of alloimmunized from a previous renal graft patients. A total of 410 serum samples from 87 patients who had lost a previous graft, were collected every 4 months during a 2-year follow-up period. All recipients and donors were typed for class I HLA-antigens by a standard lymphocytotoxicity technique. To define the specificities of the HLA class I antibodies, two techniques were used in parallel: the antihuman globulin augmented CDC (AHG-CDC) technique and an ELISA technique. The mismatched HLA-antigens and the detected HLA class I antibodies were categorized as intra-cross-reactive group mismatches (intra-CREGs-MMs) and other-CREG-MMs. For each sensitized patient actual and at risk epitope specificities were defined. Thirty-eight patients (43.7%) had developed IgG HLA class I-specific antibodies with stable specificities against mismatched alloantigens from the previous graft. A total of 60 antibody reactivity patterns and 82 specificities against private and public epitope were recognized. Patients with only intra-CREGs-MMs produced HLA class I-specific antibodies less frequently than patients with only other-CREG-MMs, although the difference was nearly statistically significant (P=0.053). All HLA class I donor-specific antibodies were considered to have specificities against the private epitopes of the mismatched graft HLA-antigens. In the cases where HLA class I alloreactivity was spreading to more than one donor antigens, we considered that the detected antibodies had specificities against the private and the shared between the alloantigens epitope(s). No epitope-specific antibodies were detected against shared epitopes between the mismatched alloantigens and the HLA-antigens of the patients. In 11/38 cases (28.9%) HLA class I alloreactivity spreading to non-graft antigens was detected. These antibodies were directed against HLA-antigens that share epitope(s) and have strong serological reactivity with the immunogenic alloantigens. Our data show that a small number of private and public alloepitopes seem to be responsible for antibody production in patients sensitized from a previous graft. A detailed description of these HLA-epitopes, in the context of clinical graft complications, may lead to an improved organ allocation strategy.
International Journal of Laboratory Hematology, 2008
This study was designed to maximize the recovery of the desirable cell populations contained in t... more This study was designed to maximize the recovery of the desirable cell populations contained in the cord blood (CB) freezing bag, in order to optimize donor selection for adolescents and adults. To evaluate this hypothesis, high volume CB units (CBUs) were categorized into three volume collection groups (120-139, 140-159 and >or=160 ml) and were randomly split before volume reduction into two half low volume CBUs; (a) and (b). Using the SEPAX Cell Processing System, all CBUs were standardized to 26 ml. In 128 high volume split CBUs, the WBC, mononuclear cell and CD34+ cell recoveries were significantly higher (P <or= 0.05; 80%, 79.89% and 87.41% respectively) than those of the 106 high volume nonsplit CBUs (59.7%, 62.82% and 68.62% respectively), resulting in significantly higher (P <or= 0.05) mean weights of the potential recipients. The strategy of splitting high volume CBUs into two half low volume CBUs improves the recovery of the cells and is an attractive option for ex vivo expansion, in order to facilitate the CB transplantation in adults who are not eligible for single CB transplantation because of limitations of cell dose.
The goal of this study was to develop an accurate protocol whereby detection of acceptable HLA-A ... more The goal of this study was to develop an accurate protocol whereby detection of acceptable HLA-A and -B mismatches is based on epitope analysis of HLA class I specific antibodies detected in the serum of highly sensitized patients awaiting a kidney retransplant. A total of 400 serum samples from 44 highly sensitized patients with panel reactive antibodies (PRA) of > or = 60% were collected during a 3-year follow-up period. All patients had been sensitized from a previous graft. In order to define the specificities of the HLA class I specific antibodies, two techniques were used in parallel: the antihuman globulin augmented complement-dependent cytotoxicity (CDC) technique and an enzyme-linked immunoabsorbent assay (ELISA) technique. Epitope identification was based on class I HLA antigen sequencing, where the unique epitope configuration on one HLA antigen represented the private epitope of the specific HLA antigen, and epitopes shared by more than one HLA antigen represented public determinants. The epitope prediction for the immunogenic HLA epitopes was based on an MHC database. For each highly sensitized patient, antibody specificities against actual and 'at risk' epitopes were defined. Following epitope analysis, all HLA antigens that did not express the actual and/or 'at risk' immunogenic epitopes were considered as acceptable mismatches of epitope analysis. The cytotoxicity of highly sensitized patients was determined using two different panels of selected, separated T lymphocytes. HLA class I specific IgG antibodies against 69 actual and 86 'at risk' epitopes were detected. In all patients, a large number of acceptable mismatches were defined. These included a large number of HLA antigens, corresponding to both HLA-A and -B loci. Our study introduces an accurate protocol for the detection of acceptable mismatches in highly sensitized patients. According to this protocol, the detailed description of immunogenic HLA specific epitope targets, against which HLA class I specific antibodies are directed, is a useful tool for the detection of acceptable mismatches in highly sensitized patients. This may lead to reduced production of HLA class I specific antibodies and, consequently, improved graft survival.
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Papers by A. Papassavas