Non-Inherited Maternal Antigens Identify Acceptable HLA Mismatches: A New Policy for the Hellenic Cord Blood Bank.

BACKGROUND: During pregnancy, the maternal-fetal contact may lead to the development of tolerance against the maternal human leukocyte antigen (HLA) that is not inherited by the fetus. These non-inherited maternal antigens (NIMAs) define acceptable HLA mismatches; therefore, the number of HLA phenotypes that are suitable matches for patients who need a hematopoietic stem cell transplant could be increased. Cord blood unit (CBU) transplantations to patients mismatched for a HLA loci, but similar to the ΝΙΜAs of the CBU, have a prognosis similar to 6/6-matched ones. METHODS: The Hellenic Cord Blood Bank (HCBB) identified the maternal HLA of 380 cord blood donors, specifying the NIMA haplotypes of the related cryostored CBUs. RESULTS: The HCBB extended the pool of HLA phenotypes through the generation of unique virtual phenotypes (VPs). A "VP database" was set up, using Microsoft Office-Access™, in order to provide NIMA-matched CBUs for potential recipients. The effectiveness of VPs' matching was tested in 80 Greek patients. CONCLUSION: This methodology may contribute to the increase of the number of available CBUs for patients, in the case where there is no available CBU, or in case an additional one is needed. Through this method, the CBUs could be used faster and more effectively, rather than being cryostored for long periods of time.

Optimizing isolation culture and freezing methods to preserve Wharton's jelly's mesenchymal stem cell (MSC) properties: an MSC banking protocol validation for the Hellenic Cord Blood Bank.

BACKGROUND: Mesenchymal stem or stromal cells (MSCs) are a heterogeneous population that can be isolated from many tissues including umbilical cord Wharton's jelly (UC-WJ). Although initially limited in studies such as a hematopoietic stem cell transplantation adjuvant, an increasing number of clinical trials consider MSCs as a potential anti-inflammatory or a regenerative medicine agent. It has been proposed that creating a repository of MSCs would increase their availability for clinical applications. The aim of this study was to assess the optimal isolation and cryopreservation procedures to facilitate WJ MSC banking. STUDY DESIGN AND METHODS: Cells were isolated from UC-WJ using enzymatic digestion or plastic adhesion methods. Their isolation efficacy, growth kinetics, immunophenotype, and differentiation potential were studied, as well as the effects of freezing. Flow cytometry for common MSC markers was performed on all cases and differentiation was shown with histocytochemical staining. Finally, the isolation efficacy on cryopreserved WJ tissue fragments was tested. RESULTS: MSC isolation was successful using both isolation methods on fresh UC-WJ tissue. However, UC-WJ MSC isolation from frozen tissue fragments was impossible. Flow cytometry analysis revealed that only MSC markers were expressed on the surface of the isolated cells while differentiation assays showed that they were capable of trilinear differentiation. All the above characteristics were also preserved in isolated UC-WJ MSCs over the cryopreservation study period. CONCLUSION: These data showed that viable MSCs can only be isolated from fresh UC-WJ tissue, setting the foundation for clinical-grade banking.

Successful short-term cryopreservation of volume-reduced cord blood units in a cryogenic mechanical freezer: effects on cell recovery, viability, and clonogenic potential.

BACKGROUND: Cord blood (CB) units are stored from weeks to years in liquid- or vapor-phase nitrogen until they are used for transplantation. We examined the effects of cryostorage in a mechanical freezer at -150°C on critical quality control variables of CB collections to investigate the possible use of mechanical freezers at -150°C as an alternative to storage in liquid- (or vapor-) phase nitrogen. STUDY DESIGN AND METHODS: A total of 105 CB units were thawed and washed at different time intervals (6, 12, 24, and 36 months). For every thawed CB unit, samples were removed and cell enumeration (total nucleated cells [TNCs], mononuclear cells [MNCs], CD34+, CD133+) was performed. In addition, viability was obtained with the use of flow cytometry, and recoveries were calculated. Also, total absolute colony-forming unit counts were performed and progenitor cell recoveries were studied by clonogenic assays. RESULTS: Significant differences (p < 0.05) were observed in certain variables (TNCs, MNC numbers, viability) when they were examined in relation with time intervals, while others (CD34+, CD133+) were relatively insensitive (p = NS) to the duration of time interval the CB units were kept in cryostorage condition. CONCLUSIONS: The data presented suggest that cryopreservation of CB units in a mechanical freezer at -150°C may represent an alternative cryostorage condition for CB cryopreservation.

Autologous transplantation of adipose-derived stem cells enhances skin graft survival and wound healing in diabetic rats.

BACKGROUND: Diabetes can lead to impaired wound healing and skin grafts used surgically for diabetic wounds are often complicated with necrosis, although different therapies have been proposed. Adipose-derived stem cells (ASCs) participate in tissue repair processes and may have a role during impaired wound healing. In this study, autologous transplantation of ASCs was used to determine if it increases angiogenesis and skin graft survival and enhances wound healing in diabetic rats. METHODS: Adipose-derived stem cells were successfully isolated and cultured. A full-thickness skin graft model was used to determine the effects of locally administered ASCs in 10 rats rendered diabetic (group 1), whereas 10 others served as controls (group 2). Histological examination of skin grafts followed after 1 week. Additionally, immunohistochemical staining intensity of vascular endothelial growth factor (VEGF) and transforming growth factor ß3 (TGF-ß3) was assessed in all grafts. RESULTS: The gross and histological results showed significantly increased survival, angiogenesis, and epithelialization. Mean area of graft necrosis was significantly less in group 1 than in group 2 (7.49% vs 39.67%, P < 0.001). Statistically significant increase of capillary density, collagen intensity, VEGF, and TGF-ß3 expression was noted in group 1 compared with group 2. CONCLUSIONS: These findings suggest that autologous ASC transplantation can enhance skin graft survival in diabetic rats through differentiation, vasculogenesis, and secretion of growth factors such as VEGF and TGF-ß3. This might represent a novel therapeutic approach in skin graft surgery for diabetic wounds.

The Role of HLA in Cord Blood Transplantation.

In recent years, umbilical cord blood (CB), a rich source of hematopoietic stem cells (HSC), has been used successfully as an alternative HSC source to treat a variety of hematologic, immunologic, genetic, and oncologic disorders. CB has several advantages, including prompt availability of the transplant, decrease of graft versus host disease (GVHD) and better long-term immune recovery, resulting in a similar long-term survival. Studies have shown that some degree of HLA mismatches is acceptable. This review is intended to outline the main aspects of HLA matching in different settings (related, pediatric, adult, or double-unit HSCT), its effect on transplantation outcome and the role of HLA in donor selection.

Low usage rate of banked sibling cord blood units in hematopoietic stem cell transplantation for children with hematological malignancies: implications for directed cord blood banking policies.

Directed sibling cord blood banking is indicated in women delivering healthy babies who already have a sibling with a disease that is potentially treatable with an allogeneic cord blood transplant. We evaluated the effectiveness of a national directed cord blood banking program in sibling HLA-identical stem cell transplantation for hematological malignancies and the factors influencing the usage rate of the stored cord blood units. Fifty families were enrolled from which, 48 cord blood units were successfully collected and 2 collections failed due to damaged cord/placenta at delivery. Among enrolled families 4 children needed transplantation; however, only one was successfully transplanted using the collected cord blood unit containing 2×10(7) nucleated cells/kg in conjunction with a small volume of bone marrow from the same HLA-identical donor. Two children received grafts from matched unrelated donors because their sibling cord blood was HLA-haploidentical, while the fourth one received bone marrow from his HLA-identical brother, since cord blood could not be collected due to damaged cord/placenta at delivery. With a median follow-up of 6 years (range, 2-12) for the 9 remaining HLA-matched cord blood units, none from the prospective recipients needed transplantation. The low utilization rate of sibling cord blood in the setting of hematopoietic stem cell transplantation for pediatric hematological malignant diseases necessitates the development of directed cord blood banking programs that limit long-term storage for banked cord blood units with low probability of usage such as non-HLA-identical or identical to patients who are in long-term complete remission.

Directed sibling donor cord blood banking for children with beta-thalassemia major in Greece: usage rate and outcome of transplantation for HLA-matched units.

Several cord blood banks store cord blood units from healthy siblings of patients, who are candidates for stem cell transplantation. We analyzed the quality characteristics of 50 cord blood units collected from families with beta-thalassemia major and the outcome of subsequent stem cell transplantations during a 15-year period. All cord blood units were found suitable for banking based on a minimum net volume of 40 ml. The mean volume of the units was 98.9 ml; the mean total nucleated cell count (NC) was 7.8 x 10(8) and the mean CD34+ cell count was 2.8 x 10(6). Eight out of twelve HLA matched collections were released for transplantation. All but one recipient belonged to Pesaro II-III risk classes. Three patients received a cord blood graft with >5 x 10(7) NC/kg . One of them with Pesaro class I disease engrafted, whereas the other two who failed to engraft, were re-transplanted with bone marrow from the same donor later. Cord blood grafts containing NCs <4 x 10(7)/kg combined with reduced volume bone marrow from the same donor were used in all 5 remaining cases and stable engraftment was achieved. All patients survived, 7/8 thalassemia-free. Cord blood banking from healthy siblings of children with beta-thalassemia major can result in a successful transplantation in cases in which there is HLA compatibility. However, in high-risk patients, the use of combined cord blood and bone marrow grafts seems necessary in order to ensure stable engraftment, especially when cord blood unit cell counts are low.

Successful hematopoietic stem cell transplantation in 2 children with X-linked chronic granulomatous disease from their unaffected HLA-identical siblings selected using preimplantation genetic diagnosis combined with HLA typing.

We report 2 children with X-linked chronic granulomatous disease (X-CGD) who underwent hematopoietic stem cell transplantation (HSCT) using grafts from their siblings selected before implantation to be both unaffected and HLA-matched donors. Preimplantation genetic diagnosis (PGD) along with HLA-typing were performed on preimplantation embryos by single-cell multiplex polymerase chain reaction using informative short tandem repeat markers in the HLA locus together with the gene region containing the mutations. Two singleton pregnancies resulted from the intrauterine transfer of selected embryos; these developed to term, producing 1 healthy female and 1 X-CGD carrier female, which are HLA-identical siblings to the 2 affected children. Combined grafts of umbilical cord blood (UCB) and bone marrow (BM) stem cells were administered to the recipients after myeloablative (MA) conditioning at the ages of 4.5 years and 4 years, respectively. Both patients are well, with complete donor hematopoietic and immunologic reconstitution, at 18 and 13 months posttransplantation, respectively. This report demonstrates that HSCT with HLA-matched sibling donors created by PGD/HLA typing of in vitro fertilized embryos is a realistic therapeutic option and should be presented as such to families with children who require a non-urgent HSCT but lack an HLA-genoidentical donor.

Is there MHC Class II restriction of the response to MHC Class I in transplant patients?

BACKGROUND: In this study, we evaluated distinct HLA-DRB1 alleles to determine class II restriction of the production of HLA-A2-specific antibodies in renal transplant patients. METHODS: Data from 217 renal transplant patients who received an HLA-A2-mismatched renal graft were analyzed with regard to HLA-A2 humoral responsiveness. High-resolution DNA typing of class II HLA-DR alleles was performed by polymerase chain reaction-sequence-specific primer. Patients who had one of the following eight HLA-DRB1 alleles were included in the study: -*0101, -*0301, -*0401, -*0701, -*1101, -*1301, -*1401, and -*1501. Serum samples were screened posttransplantation with the standard complement-dependent cytotoxicity procedure. In addition, recombinant HLA-A2 monomers (the "MonoLISA" assay) were used as a target for the detection of HLA-A2 group-specific antibodies. The following HLA-A2 amino acid positions (termed "epitopes") that are responsible for the induction of an antibody response were defined: 74H, 65-66GK, 62G, 114H, 142-145TTKH, and 107W-127K. The definition of the "HLA-DR permittors" of anti-HLA-A2 response was based on a "class II restriction table" designed for this purpose. Prediction of immunogenic and/or nonimmunogenic HLA-A2 peptides was based on an MHC database. RESULTS: The HLA-DRB1-*0101 and -*1401 alleles had a trend toward a positive correlation with the production of HLA class I-specific antibodies against the HLA-A2 shared (public) epitopes 65-66GK and -62G, respectively. Only the DRB1-*1501 allele had higher trend toward a positive correlation with the production of antibodies against the HLA-A2 private (74H) epitope. In 42 patients with the HLA-DRB1-*1501 allele, 11 (26%) patients produced HLA-specific antibodies against the HLA-A2 group of epitope(s). Moreover, in these patients, spreading of the alloreactivity against "other" HLA antigens was detected. Many of these other HLA antigens did not belong to HLA-A2 group but had newly defined shared epitopes with this group. Furthermore, the epitope prediction, based on an MHC database, revealed differences in the ligation strength (score) to the HLA allele (class I and II) for a specific HLA-A2 peptide in the 42 patients (responders and nonresponders). CONCLUSIONS: The data presented in this paper suggest that the HLA class II allele and the type of the bound allopeptide may influence the humoral and cellular response. The immunogenicity of these allopeptides could be predicted with an MHC database (high-scored peptide=activating peptide and low-scored peptide=suppressor peptide). In the future, production of synthetic peptide analogues, on the basis of these predictions, could be used for induction of T-cell anergy and/or tolerance. In the short term, algorithms, on the basis of our approach, could be tested for influence on graft survival and allosensitization in current high-quality data sets.