HLA molecule expression on the surface of cells and microparticles in platelet concentrates.

BACKGROUND: Platelet (PLT) transfusions are an essential treatment for bleeding disorders. However, immunologic complications can occur, including alloantibody production against Class I HLA molecules. The principal source of HLA molecules in PLT concentrates (PCs) is the PLTs themselves. However, extracellular microparticles (MPs) present in PCs may express HLA molecules. STUDY DESIGN AND METHODS: We used nanoscale flow cytometry to explore the expression of HLA-A2, HLA-B7, and HLA-B57 on the surface of cells, PLT-derived MPs (PMPs), lymphocyte-derived MPs (LMPs), and monocyte-derived MPs (MMPs) present in PCs. Expression was studied during 7 days of storage. RESULTS: Platelets were not the only source of HLA molecules in PCs. HLA molecules were present on PMPs, LMPs, and MMPs. The level of HLA Class I molecule expression varied between haplotypes and MPs of different origins and during storage. CONCLUSION: Platelets or residual cells remaining after leukoreduction are not the only source of HLA Class I molecules in PCs, highlighting the contribution of MPs to alloimmunization mechanisms. These data may be relevant for the development of new transfusion guidelines.

Dominant immune response to HLA-B57/B58 molecules after platelet transfusion.

BACKGROUND: Patients with hematologic malignancies require prophylactic or curative platelet transfusions to prevent or treat bleeding. Treatments such as chemotherapy, radiotherapy, and hematopoietic stem cell transplantation cause persistent thrombocytopenia, necessitating platelet transfusions. However, class I HLA antibodies can cause a serious complication: immune-mediated platelet refractoriness. The mechanisms of alloimmunization are incompletely understood. We explored the immunogenicity of HLA molecules and the phenotype of the HLA-specific CD4+ T cells involved in alloimmunization. STUDY DESIGN AND METHODS: We investigated the role of HLA molecules in platelet transfusion immunogenicity in a retrospective cohort study on men with specific anti-HLA who had undergone transfusion. We investigated the presence and phenotypic profile of HLA-specific CD4+ T cells in alloimmunized patients included in long-term platelet transfusion programs for hematologic malignancies. RESULTS: More than 50% of the transfused subjects displayed an antibody response against HLA-B57 or -B58. HLA-B57-specific CD4+ T-cell responses were observed in patients alloimmunized against HLA-B57. Following specific stimulation, the patients presented HLA-specific CD4+ T cells producing tumor necrosis factor-α, interleukin (IL)-13, IL-17A, IL-2, IL-10, and IL-21. CONCLUSION: These results shed light on posttransfusion class I anti-HLA alloimmunization mechanisms and constitute a first step toward developing new strategies for reducing refractoriness.

New molecular basis associated with CD36-negative phenotype in the sub-Saharan African population.

BACKGROUND: CD36 glycoprotein is expressed by various cell types, including platelets (PLTs), monocytes, and erythroid precursors, and is also the receptor for several ligands. However, absence of CD36 expression seems asymptomatic and is poorly described in Caucasians. In contrast, the frequency reaches 7% and 11% in African Caribbean and Asian persons, respectively. Lack of CD36 expression exposes to the risk of immunization in case of pregnancy or PLT transfusion. Two types of deficiency have been described: in Type I, PLTs and monocytes lack CD36 expression and the subjects are homozygous or compound heterozygous for CD36 mutations, whereas in Type II, only PLTs (Type IIa), and rarely also erythroid cells (Type IIb), are affected. Molecular events leading to Type II deficiency are poorly understood. CASE REPORT: An African girl, diagnosed with homozygous sickle cell disease and regularly transfused, was assessed for PLT CD36 expression by immunofluorescence microscopy. The deficiency was then confirmed by monoclonal antibody immobilization of PLT antigen (MAIPA) assay, and the subtype was assessed by flow cytometry. The underlying molecular basis was characterized by DNA sequencing. Furthermore, we tested the serum for possible anti-CD36 immunization. RESULTS AND CONCLUSION: Flow cytometric analysis on the patient's blood samples allowed the diagnosis of Type I CD36 deficiency. CD36 antibodies, probably due to her past history of red blood cell transfusions, were identified by MAIPA and by Luminex technology assay. Interestingly, we identified through sequencing a new molecular basis involved in CD36 deficiency: two adenines were replaced by one guanine in Exon 4 (c.367_368delAAinsG) leading to a stop codon at Position 76.

Fetal and neonatal alloimmune thrombocytopenia: predictive factors of intracranial hemorrhage.

BACKGROUND: In Caucasians, fetal/neonatal alloimmune thrombocytopenia (FNAIT) is most frequently caused by maternal alloimmunization against the human platelet antigen HPA-1a. The most serious complication of severe FNAIT is intracranial hemorrhage (ICH). ICH mainly occurs in utero; therefore, there is a need to identify noninvasive predictive factors of ICH to facilitate early identification of this condition and to determine response to maternal therapy. STUDY DESIGN AND METHODS: We studied gynecologic and immunogenetic variables of severe cases of anti-HPA-1a FNAIT within three groups: Group I, FNAIT without ICH; Group II, FNAIT with ICH; and Group III, suspected FNAIT cases without detectable maternal anti-HPA-1a alloantibodies. RESULTS: ICH was associated with a poor outcome because it led to death in 59% of cases. Multigravida (two or more pregnancies) was overrepresented in Group II, consistent with the high concentrations of maternal HPA-1a alloantibody and the frequent detection of a strong newborn-specific HLA class I antibody response at delivery. The proportion of HLA-DRB4*01:01P (*01:01 or *01:03) women was similar in Groups I and II, but this allele was overrepresented in Group III, in which FNAIT was less severe than in the other two groups. Finally, antenatal intravenous immunoglobulin therapy tended to be more effective in HLA-DRB3*01:01(+)/HLA-DRB4*01:01P(+) women than for HLA-DRB3*01:01(+)/HLA-DRB4*01:01P(-) women. CONCLUSION: The number of gestations is a predictive factor of ICH in anti-HPA-1a-alloimmunized women. Maternal immunogenetic variables should be investigated in the context of maternal immunization and may predict response to maternal therapy in subsequent pregnancies.

Donor Immunization Against Human Leukocyte Class II Antigens is a Risk Factor for Graft-versus-Host Disease.

The sensitization to HLA antigens is caused mainly by pregnancy and transfusions; however, anti-HLA antibodies also may be detected in nulliparous females and nontransfused males, and thus specifically in hematopoietic stem cell transplantation (HSCT) donors. In such cases, the impact on HSCT outcome is known only for platelet transfusion refractoriness. This study addresses the impact on graft-versus-host disease (GVHD) of anti-HLA antibodies detected in voluntary unrelated donors. Among 100 donor/recipient (D/R) pairs, 33 and 82 showed at least 1 HLA class I and class II mismatch, respectively. Because class II mismatches were more frequent, we focused our detection on anti-class II antibodies, using the Luminex assay. Among 82 HLA class II mismatched D/R pairs, 26 donors (32%) had at least 1 anti-HLA class II antibody detected in peripheral blood. Recipients of a graft from an anti-class II immunized donor had a higher cumulative incidence for a first episode of either acute or chronic GVHD (2- year cumulative incidence, 88% versus 67%; P = .03), which was confirmed in multivariate analysis (hazard ratio, 1.7; P = .04). In particular, according to the National Institutes of Health classification scheme, the cumulative incidence of chronic GVHD was higher in recipients of immunized donors (multivariate hazard ratio, 2.5; P = .02). Identifying specificities of anti-class II antibodies revealed that 13 of 26 alloimmunized donors had recipient-specific antibodies, directed mainly against mismatched HLA-DPB1 alleles. Donor-derived anti-HLA antibodies could be detected in recipients up to at least 6 months post-HSCT, supporting their association with chronic GVHD. Donor immunization against foreign HLA antigens is a new parameter to predict the occurrence of GVHD after HSCT from HLA-mismatched unrelated donors.

Phenotypic differences of CD4(+) T cells in response to red blood cell immunization in transfused sickle cell disease patients.

Alloimmunization against red blood cells (RBCs) is the main immunological risk associated with transfusion in patients with sickle cell disease (SCD). However, about 50-70% of SCD patients never get immunized despite frequent transfusion. In murine models, CD4(+) T cells play a key role in RBC alloimmunization. We therefore explored and compared the CD4(+) T-cell phenotypes and functions between a group of SCD patients (n = 11) who never became immunized despite a high transfusion regimen and a group of SCD patients (n = 10) who had become immunized (at least against Kidd antigen b) after a low transfusion regimen. We studied markers of CD4(+) T-cell function, including TLR, that directly control lymphocyte function, and their spontaneous cytokine production. We also tested responders for the cytokine profile in response to Kidd antigen b peptides. Low TLR2/TLR3 expression and, unexpectedly, strong expression of CD40 on CD4(+) T cells were associated with the nonresponder status, whereas spontaneous expression of IL-10 by CD4(+) T cells and weak Tbet expression were associated with the responder status. A Th17 profile was predominant in responders when stimulated by Jb(k) . These findings implicate CD4(+) T cells in alloimmunization in humans and suggest that they may be exploited to differentiate responders from nonresponders.

Weak D phenotypes and transfusion safety: where do we stand in daily practice?

BACKGROUND: Weak D Types 1, 2, and 3 recipients cannot be immunized when exposed to D antigen. Molecular biology is very efficient to type weak D variants but rarely implemented in daily practice. The serologic typing practice of weak D in a Caucasian patient population was analyzed and a transfusion strategy is proposed. STUDY DESIGN AND METHODS: Samples typed either ddCcee or ddccEe in routine laboratories were tested with the indirect antiglobulin test (D(u) test). D(u)-positive samples were screened for weak D alleles Types 1, 2, and 3 and further tested with immunoglobulin M (IgM) anti-D reagents, used in a fully automated device. RESULTS: A total of 468 of 55,162 samples were found to be ddCcee or ddccEe. Ninety-three expressed weak D after the D(u) test leading to D+ assignment for transfusion. Seventy-three percent of D(u)-positive samples were weak D alleles Type 1, 2, or 3. Almost all weak D Types 1, 2, and 3 were positive with IgM reagents in gel matrix with an automated device. Other variants that could be potentially associated with anti-D alloimmunization, however, were also positive. CONCLUSION: Serology is very sensitive to detect weak D Types 1, 2, and 3, but there is no cutoff to distinguish variants of clinical significance. When molecular analysis is not available, it is proposed that a D+ status for blood recipients found to be weak D with a sensitive method be assigned, except for women of childbearing age or younger, because of the remaining possibility to be partial D or other rare weak D who can be immunized.

Duffy and Kidd blood group antigens: minor histocompatibility antigens involved in renal allograft rejection?

BACKGROUND: Minor histocompatibility antigens have been poorly defined. Whether Duffy (FY) and Kidd (JK), polymorphic and immunogenic blood group antigens, widely distributed in human organs, expressed and functional in the kidney, could function as minor histocompatibility antigens and be implicated in renal allograft rejection was questioned. STUDY DESIGN AND METHODS: A retrospective, homogeneous, single-center cohort of 370 renal transplants was analyzed. In all donor/recipient pairs, FY and JK polymorphisms were identified by real-time polymerase chain reaction. In all donor/recipient pairs the matching (m) or mismatching (mm) status was defined for both systems. All biopsies were reviewed, and historical screening results for FY and JK alloantibodies and graft survival were retrospectively analyzed. RESULTS: Although graft survival was not different between the groups, it was observed that FY mm grafts had significantly more chronic lesions compared to FY m grafts. HLA-DR11 was more frequent in both recipients (p = 0.0081) and donors (p = 0.0104) of FY mm couples without chronic allograft nephropathy, suggesting a protective effect for this molecule. JK mm grafts had more interstitial inflammation than JK m grafts (p = 0.0369). CONCLUSION: This renal model unmasks for the first time the role of FY and-to a lesser extent-JK antigens as minor histocompatibility antigens and suggests their potential role for other clinical transplant settings.

Relative immunogenicity of Fya and K antigens in a Caucasian population, based on HLA class II restriction analysis.

BACKGROUND: It has long been known that relative immunogenicity is a characteristic of protein red blood cell (RBC) antigens, but the mechanisms remain unclear. The aim of this work was to elucidate the mechanisms underlying this relative immunogenicity. STUDY DESIGN AND METHODS: Two RBC antigens were used as a model--the highly immunogenic K antigen (KEL1) and the less immunogenic Fya antigen (FY1)--and analyzed the distribution of DRB1* molecules in two groups of Caucasian individuals producing anti-Fya (n = 29) or anti-K (n = 30) alloantibodies. These experimental results were compared to the results generated by TEPITOPE, a DRB1* peptide-binding motif prediction algorithm. RESULTS: It was found that within the anti-Fya group, the DRB1*04 phenotypic frequency was 100 percent, indicating that the DRB1*04 molecule is the restriction molecule. In the anti-K group, numerous DRB1* molecules were identified, demonstrating a high degree of histocompatibility promiscuity, corresponding to the predominant molecules in the Caucasian population. These findings were confirmed by TEPITOPE. CONCLUSION: These results strongly suggest that protein RBC intrinsic immunogenicity depends on the distribution of DRB1* restriction molecules.

ceRA: an RH allele variant producing a new rare blood.

BACKGROUND: Antibodies against RH antigens are clinically significant. Some rare RH phenotypes, for example, RH:-46 (R(N)), RH:-18 (Hr(s)-), RH:-34 (Hr(b)-), and homozygous partial RH5 (e), are found exclusively in black persons of African descent. Quantitative and qualitative RHCE variants require characterization because the presence of these alleles can lead to difficulties when transfusion is needed. STUDY DESIGN AND METHODS: Here a new RH5 variant (ceRA) in an Indian patient is described and investigated by serology (agglutination and flow cytometry analysis) and molecular and immunoblot analysis. RESULTS: Red blood cells (RBCs), typed as RH:-1,-2, -3,4,w5, expressed a very depressed RH5 antigen, with no expression of the RH19 (h) high-frequency antigen. Molecular analysis revealed a new Rhce allele (homozygous state), hereafter called ceRA. This new allele exhibited a G48C mutation in exon 1 and a G538C mutation in exon 4, predicting, respectively, a Trp16Cys substitution and a Gly180Arg substitution, both in the intramembranous domain of the Rhce polypeptide. Immunoblot analysis showed that this defect results in a dramatic loss of the amount of RHCE polypeptides within the RBC membrane. No reactivity was evidenced with most of anti-RH5, in agglutination as well as in flow cytometry techniques. CONCLUSION: Both serologic results and localization of the Gly180Arg substitution emphasize the risk of anti-RH5 alloimmunization for patients expressing this new allele ceRA at the homozygous state. These results point out the importance of obtaining blood donations for the frozen rare blood bank in case future transfusion is needed.

RhD variants in Caucasians: consequences for checking clinically relevant alleles.

BACKGROUND: Weak D type carriers cannot be immunized against D except when antigen density is below 400 antigens per RBC, whereas partial D carriers can produce anti-D. STUDY DESIGN AND METHODS: A total of 168 blood samples from Caucasian individuals were studied because of weak D expression and/or anti-D production. Serologic analysis and molecular analysis were performed. RESULTS: In total, 70 partial D and 62 weak D were identified. Among weak D samples, 30 weak D Type 1 and 21 weak D Type 2 alleles were found. Five new alleles were characterized carrying 399G > T, 680T > C, 833G > A, 851C > T, and 1015G > A, respectively. According to previous studies, antigen density was up to 500 for weak D Type 1 and 2, except when there was a dCe haplotype in trans. Antigen density was below 400 antigens per red blood cell for the new variants and most other weak D variants. CONCLUSION: These results provide molecular characterization of five new D variants. They also suggest that it would be advantageous to develop in routine laboratories weak D Type 1 and 2 genotyping for serologically depressed D antigen. It will help to avoid wasting of D- red blood cell units because carriers may safely receive D+ units.

Relationship between CD8+ T-cell phenotype and function, Epstein-Barr virus load, and clinical outcome in pediatric renal transplant recipients: a prospective study.

BACKGROUND: The authors studied the relationship between the dynamics of Epstein-Barr virus (EBV) load, CD8 T-cell activation and differentiation, and EBV-associated symptoms in 25 children after kidney transplantation (Tx). METHODS: Twenty-two patients were enrolled at the time of Tx and three at diagnosis of EBV-induced post-transplant lymphoproliferative disease (PTLD). EBV load was serially measured by a semiquantitative method of DNA amplification in blood cells. The percentages of activated (human leukocyte antigen-DR) and of effector-memory (CD28) CD8 circulating cytolytic T lymphocytes (CTL) were serially evaluated by flow cytometry. The cytotoxic potential of CTL was assessed by a CD3-redirected cytotoxic assay. RESULTS: For three children with post-Tx uncomplicated primary EBV infection, EBV load peaked by months 1 to 2 after Tx and declined spontaneously by months 3 to 6, whereas expansion of activated and effector-memory CTL was absent (one case) or transient and moderate (two cases). In 15 patients who were EBV-seropositive before Tx and who did not develop EBV-PTLD, transient elevation of EBV load but no noticeable changes in CTL phenotype were observed. In contrast, in one child who was also EBV-seropositive before Tx but who developed EBV-PTLD, a major and sustained elevation of EBV load and of activated and effector-memory CTL was observed. In three patients retrospectively enrolled at diagnosis of EBV-PTLD, sustained elevation of both viral load and activated T cells was also noticed. Finally, increased cytotoxic activity correlated with increased level of activated CTL. CONCLUSIONS: An association between high and sustained T-cell activation, EBV load, and the occurrence of EBV-PTLD was observed. Furthermore, intense cytotoxic activity was observed in EBV-PTLD, with favorable outcome.

Rare RHCE phenotypes in black individuals of Afro-Caribbean origin: identification and transfusion safety.

The molecular backgrounds of variants encountered in Afro-Caribbean black individuals and associated with the production of clinically significant antibodies against high-incidence antigens (anti-RH18, anti-RH34) and against Rhe epitopes were determined. We showed that RH:-18 phenotypes are produced by 3 distinct RHCE alleles: ceEK carrying 48G>C (exon 1), 712A>G, 787A>G, 800T>A (exon 5); ceBI carrying 48G>C (exon 1), 712A>G (exon 5), 818C>T (exon 6), 1132C>G (exon 8); and the already known ceAR allele carrying 48G>C (exon 1), 712A>G, 733C>G, 787A>G, 800T>A (exon 5), and 916A>G (exon 6). The RH:-34 phenotype is produced by the (C)ce(s) haplotype described previously and composed of a hybrid D-CE(3-8)-D gene with 4 extra mutations next to a ce(s) allele (733C>G; exon 5) with an extra mutation in exon 7 (1006G>T). Partial Rhe with risk of immunization against lacking epitopes can be produced by the new ce(s) allele carrying an extra mutation in exon 3 (340C>T) and by the ceMO allele described previously. A population of sickle cell disease patients was screened to estimate the incidence of these rare alleles, with the conclusion that a procedure is required to detect the associated phenotypes in black donors to ensure transfusion safety for patients. We also described a new variant [ce(s)(748)] and variants carrying different altered alleles in nonimmunized patients and for whom the risk of immunization is discussed.

Molecular background of D(C)(e) haplotypes within the white population.

BACKGROUND: D(C)(e) and D(C)e haplotypes may be encountered in the white population. Few data are available on the molecular backgrounds responsible for depressed expression of C and e. STUDY DESIGN AND METHODS: Individuals of white origin carrying a D(C)(e) genotype resulting in depressed expression of C or both C and e were subdivided into two categories based on the RBC reactivity with the human sera Mol and Hor, which contain antibodies against low-frequency antigens of the Rh (RH) system and other non-Rh low-frequency antigens. Neither Hor+, Mol+ nor Hor+, Mol- RBCs expressed the V (RH10), VS (RH20), and/or Rh32 (RH32) low-frequency antigens. These results suggested that Hor+, Mol+ variants expressed Rh33 (RH33 or Har) and FPTT (RH50), whereas Hor+, Mol- variants might express an undefined low-frequency antigen. Further serologic and molecular analyses were performed. RESULTS: Molecular analysis of Hor+, Mol+ variants revealed a hybrid gene structure RHCe-D(5)-Ce, in which exon 5 of RHCE (RHCe allele) was replaced by exon 5 of RHD (the so-called RHCeVA allele). The presence of exon 5RHD resulted in several amino acid alterations predicted in the external loop 4 of the CeVA polypeptide. Molecular analysis of Hor+, Mol- variants revealed the presence of a new RHCe allele characterized by a single point mutation C340T within exon 3 (the so-called RHCeMA allele), resulting in a R114W substitution predicted on the external loop 2 of the CeMA polypeptide. A serologic study showed a different pattern of reactivity with C and e MoAbs. CONCLUSION: Two types of mutations resulted in amino acid substitutions predicted in external loops 4 and 2, respectively, which altered both the C and e reactivity, and indicated conformation changes or defective interaction between nonadjacent loops of the Ce polypeptide. Serologic analysis showed that together with Hor and Mol sera testing, the use of different C and e MoAbs could help to identify these variants within the white population.