Application of a Multivariant, Caucasian-Specific, Genotyped Donor Panel for Performance Validation of MDmulticard®, ID-System®, and Scangel® RhD/ABO Serotyping.

BACKGROUND: Validations of routinely used serological typing methods require intense performance evaluations typically including large numbers of samples before routine application. However, such evaluations could be improved considering information about the frequency of standard blood groups and their variants. METHODS: Using RHD and ABO population genetic data, a Caucasian-specific donor panel was compiled for a performance comparison of the three RhD and ABO serological typing methods MDmulticard (Medion Diagnostics), ID-System (DiaMed) and ScanGel (Bio-Rad). The final test panel included standard and variant RHD and ABO genotypes, e.g. RhD categories, partial and weak RhDs, RhD DELs, and ABO samples, mainly to interpret weak serological reactivity for blood group A specificity. All samples were from individuals recorded in our local DNA blood group typing database. RESULTS: For 'standard' blood groups, results of performance were clearly interpretable for all three serological methods compared. However, when focusing on specific variant phenotypes, pronounced differences in reaction strengths and specificities were observed between them. CONCLUSIONS: A genetically and ethnically predefined donor test panel consisting of 93 individual samples only, delivered highly significant results for serological performance comparisons. Such small panels offer impressive representative powers, higher as such based on statistical chances and large numbers only.

Mosaicism due to myeloid lineage restricted loss of heterozygosity as cause of spontaneous Rh phenotype splitting.

Spontaneous Rh phenotype alteration interferes with pretransfusion and prenatal blood group examinations and may potentially indicate hematologic disease. In this study, the molecular background of this biologic phenomenon was investigated. In 9 patients (3 with hematologic disease), routine RhD typing showed a mixture of D-positive and D-negative red cells not attributable to transfusion or hematopoietic stem-cell transplantation. In all patients, congenital and acquired chimerism was excluded by microsatellite analysis. In contrast to D-positive red cells, D-negative subpopulations were also negative for C or E in patients genotyped CcDdee or ccDdEe, respectively, which suggested the presence of erythrocyte precursors with an apparent homozygous cde/cde or hemizygous cde/- genotype. Except for one patient with additional Fy(b) antigen anomaly, no other blood group systems were affected. RH genotyping of single erythropoietic burst-forming units, combined with microsatellite analysis of blood, different tissues, sorted blood cell subsets, and erythropoietic burst-forming units, indicated myeloid lineage-restricted loss of heterozygosity (LOH) of variable chromosome 1 stretches encompassing the RHD/RHCE gene loci. Fluorescent in situ hybridization studies indicated that LOH was caused by either somatic recombination or deletion. Therefore, most cases of spontaneous Rh phenotype splitting appear to be due to hematopoietic mosaicism based on LOH on chromosome 1.

Prevention of transfusion of platelet components contaminated with low levels of bacteria: a comparison of bacteria culture and pathogen inactivation methods.

BACKGROUND: This study compared the efficacy of bacterial detection with inactivation for reducing the risk associated with transfusion of platelet (PLT) components contaminated with low levels of bacteria. STUDY DESIGN AND METHODS: Twenty-one double-dose PLTs were spiked with seven species of bacteria at three levels (0.003-0.03, 0.03-0.3, 0.3-3 colony-forming units [CFUs]/mL). After split, each PLT unit contained 1 to 10, 10 to 100, and 100 to 1000 CFUs. One unit was photochemically treated (PCT; 150 micromol/L amotosalen and 3 J/cm(2) ultraviolet A). The other unit was untreated. All units were stored and sampled on Days 1, 2, and 5 of storage for aerobic and anaerobic culture in the BacT/ALERT system (bioMérieux). PLTs were classified as sterile when no bacterial growth was detected after 120 hours of culture. RESULTS: In all PCT PLTs, no bacteria were detected throughout 5 days of storage regardless of species, level of contamination, and sampling time. In untreated PLTs, Staphylococcus aureus was consistently detected by culturing. Growth of 1 to 10 CFUs per unit Staphylococcus epidermidis, 1 to 100 CFUs per unit of Klebsiella pneumoniae, and 1 to 1000 CFUs per unit Propionibacterium acnes was delayed and only detectable after 5, 2, and 5 days of storage, respectively. Low levels of Streptococcus agalactiae (1-10 CFUs/unit), Escherichia coli (1-100 CFUs/unit), and Clostridium perfringens (1-100 CFUs/unit) were not detected during 5 days of storage, although bacterial outgrowth was detected at higher levels of contamination. CONCLUSIONS: For the seven bacterial species examined, contaminated PLTs may be released for transfusion on test-negative-to-date status. In contrast, bacterial inactivation by PCT could reduce the risk associated with transfusion of PLTs contaminated with low levels of these bacteria.

Genetic diversity of KELnull and KELel: a nationwide Austrian survey.

BACKGROUND: Besides ABO and RH, the KEL blood group system, including the two antithetical antigens KEL1 and KEL2, is the most important owing to the frequent appearance of anti-KEL alloantibodies and their considerable clinical significance. So far, only limited information was available on KEL variant alleles determining the rare silent KELnull and KELel phenotypes with absent or diminished KEL antigen expression detected only by adsorption-elution techniques, respectively. STUDY DESIGN AND METHODS: For a systematic investigation of the KELnull and KELel phenotypes, 401 KEL:1,-2 samples (representing 2.6% of all Austrian KEL:1,-2 samples) and 811 KEL:1,2 samples were genotyped for the KEL*1/KEL*2-specific single-nucleotide polymorphism. All heterozygous KEL*1/KEL*2 and 4 additional KELnull samples were subjected to detailed immunohematologic examination and allele-specific sequencing. RESULTS: In 14 KEL:1,-2 samples, discrepant KEL*1/KEL*2 heterozygosity was observed, indicating the presence of silent or barely expressed KEL*2 alleles, whereas all KEL:1,2 individuals were homozygous for KEL*2. In the course of further molecular analysis, 8 novel KEL*2null and 2 KEL*2el alleles were discovered, representing 67 and 33 percent of previously known KEL*2null- and KEL*2el-encoding alleles, respectively. In addition, two different known KEL*2null and KEL*2el alleles each were confirmed. The immunohematologic properties of KEL variant red blood cells were defined by extended KEL phenotyping and flow cytometric KEL1, KEL2, KEL4, and KEL7 antigen as well as total Kell protein quantification. CONCLUSION: For the first time, exact KELnull and KELel population frequencies could be established in this population.

Novel weak D types 31 and 32: adsorption-elution-supported D antigen analysis and comparison to prevalent weak D types.

BACKGROUND: Weak D types are thought to express rather quantitative than qualitative D antigen variants. Distinct type-specific phenotypes and weak D cases with anti-D alloimmunization, however, suggest a variable degree of D antigen alteration. STUDY DESIGN AND METHODS: Variant D types were investigated by use of molecular typing, RHD sequencing, extended serologic D antigen investigations, and flow cytometric D antigen density determination. RESULTS: Two novel weak D types were discovered, termed weak D type 31 and 32 with single RHD nucleotide substitutions coding for amino acid exchanges in predicted intracellular RhD polypeptide stretches, with antigen densities of approximately 130 and 50 D sites per red blood cell, respectively. Adsorption-elution technique-supported D epitope mapping of these two weak D types, the recently described weak D type 26, and of the most common Central European weak D types (weak D types 1, 2, 3, 4.0, and 4.1) demonstrated the expression of all tested D epitopes. In contrast, a distinct D epitope loss was detected in weak D type 15 and partial D control samples. CONCLUSION: All novel and prevalent weak D types expressed all tested D epitopes. Our results indicate that adsorption-elution techniques may be of advantage whenever D epitope loss is suspected in extremely weak D variants.

Neopterin concentrations in blood donors differ between AB0 blood group phenotypes.

OBJECTIVES: Neopterin is produced by human monocyte-derived macrophages upon stimulation with interferon-gamma and is therefore a sensitive indicator for cellular immune activation. Common factors like age, diastolic blood pressure, body mass index, or smoking habits were found to be associated with neopterin concentrations in humans. DESIGN AND METHODS: In order to find possible genetic determinants which might influence neopterin production, we investigated 8288 consecutive blood donors after exclusion of samples suspicious of infections. RESULTS: Donors with blood group phenotype 0 had moderately, but significantly (P < 0.0001) higher neopterin concentrations (mean +/- SD: 6.94 +/- 1.52 nmol/L) than those with phenotype A (6.75 +/- 1.50 nmol/L), phenotype B (6.73 +/- 1.48 nmol/L), and phenotype AB (6.68 +/- 1.57 nmol/L). CONCLUSIONS: Neopterin levels are higher in donors with blood group phenotype 0 than in other phenotypes. Data point to a genetic background of different neopterin concentrations. However, alterations of neopterin levels were much less expressed than the changes known to occur during diseases with an activated immune response.

CD25-expressing CD8+ T cells are potent memory cells in old age.

We have recently described an IL-2/IL-4-producing CD8+CD25+ non-regulatory memory T cell population that occurs in a subgroup of healthy elderly persons who characteristically still have a good humoral response after vaccination. The present study addresses this specific T cell subset and investigates its origin, clonal composition, Ag specificity, and replicative history. We demonstrate that CD8+CD25+ memory T cells frequently exhibit a CD4+CD8+ double-positive phenotype. The expression of the CD8 alphabeta molecule and the occurrence of signal-joint TCR rearrangement excision circles suggest a thymic origin of these cells. They also have longer telomeres than their CD8+CD25- memory counterparts, thus indicating a shorter replicative history. CD8+CD25+ memory T cells display a polyclonal TCR repertoire and respond to IL-2 as well as to a panel of different Ags, whereas the CD8+CD25- memory T cell population has a more restricted TCR diversity, responds to fewer Ags, and does not proliferate in response to stimulation with IL-2. Molecular tracking of specific clones with clonotypic primers reveals that the same clones occur in CD8+CD25+ and CD8+CD25- memory T cell populations, demonstrating a lineage relationship between CD25+ and CD25- memory CD8+ T cells. Our results suggest that CD25-expressing memory T cells represent an early stage in the differentiation of CD8+ cells. Accumulation of these cells in elderly persons appears to be a prerequisite of intact immune responsiveness in the absence of naive T cells in old age.

Long-term cytomegalovirus infection leads to significant changes in the composition of the CD8+ T-cell repertoire, which may be the basis for an imbalance in the cytokine production profile in elderly persons.

In spite of the present belief that latent cytomegalovirus (CMV) infection drives CD8+ T-cell differentiation and induces premature immune senescence, no systematic studies have so far been performed to compare phenotypical and functional changes in the CD8+ T-cell repertoire in CMV-infected and noninfected persons of different age groups. In the present study, number, cytokine production, and growth potential of naive (CD45RA+ CD28+), memory (CD45RA- CD28+), and effector (CD45RA+ CD28- or CD45RA- CD28-) CD8+ T cells were analyzed in young, middle-aged, and elderly clinically healthy persons with a positive or negative CMV antibody serology. Numbers and functional properties of CMVpp65(495-503)-specific CD8+ T cells were also studied. We demonstrate that aging as well as CMV infection lead to a decrease in the size of the naive CD8+ T-cell pool but to an increase in the number of CD8+ effector T cells, which produce gamma interferon but lack substantial growth potential. The size of the CD8+ memory T-cell population, which grows well and produces interleukin-2 (IL-2) and IL-4, also increases with aging, but this increase is missing in CMV carriers. Life-long latent CMV infection seems thus to diminish the size of the naive and the early memory T-cell pool and to drive a Th1 polarization within the immune system. This can lead to a reduced diversity of CD8 responses and to chronic inflammatory processes which may be the basis of severe health problems in elderly persons.

Molecular and serologic characterization of DWI, a novel "high-grade" partial D.

BACKGROUND: Accurate D antigen identification is essential for pretransfusion and prenatal evaluation to prevent anti-D alloimmunization. Quantitative and qualitative D variants may pose typing problems and require particular consideration because of differing potential for anti-D induction. STUDY DESIGN AND METHODS: A novel partial D, DWI, was discovered in an anti-D-alloimmunized D+ Austrian woman. This D variant was investigated by RHD genotyping and nucleotide sequencing, as well as characterization of its serologic properties. RESULTS: The proposita exhibited a single-nucleotide exchange in RHD Exon 7 (1073T>C) predicting a Met358Thr substitution in the sixth extracellular loop of the RhD polypeptide. All DWI individuals identified (the proposita and two relatives) were genotyped DWIdCcee, which, together with the family tree, was highly suggestive of a DWICe haplotype association. Epitope mapping studies revealed only minor D antigen modification with weakening but not loss of epitopes D1.1, D9.1, and D16.1. Antigen density varied individually between 8000 and 8600 D sites per erythrocyte. No known low-frequency Rh antigen was detected. Despite the highly retained D epitope composition, the DWI proposita's serum sample contained alloanti-D from an immunization event many years earlier. CONCLUSION: The findings of this investigation emphasize the possible clinical significance of "high-grade" partial D variants that are likely to be missed by routine serology.

Acute cytomegalovirus infections in blood donors are indicated by increased serum neopterin concentrations.

In Austria serum neopterin measurement was introduced as an additional unspecific screening marker for the detection of routinely unscreened viral infections in blood donations in 1994. This study was performed to test for associations between serum neopterin concentrations in blood donations and cytomegalovirus infections of the donors. All consecutive blood donations from volunteer blood donors collected during 1 year were incorporated into the study. Serum neopterin concentrations were measured by enzyme-linked immunosorbent assay (ELISA), and each donation of donors with CMV seronegativity or unknown CMV status was also screened for CMV antibodies by CMV IgG/IgM antibody ELISA. Data of donors who had two or more donations within this period were retrospectively analyzed for CMV seroconversions. CMV seroconversion was defined as a change in the donor's CMV status from antibody negative to positive. Frozen, stored plasma samples of the matching donors were tested for CMV IgM antibodies to confirm seroconversion. CMV seroconversions were classified by antibody patterns. In total, 56,068 consecutive blood donations were given by 44,427 volunteer donors. Among these, 9,105 had more than one donation during the observation period, and 4,329 (47.5%) out of these repeated donors were initially CMV antibody negative, of whom 36 were recruited as candidates for CMV seroconversion; 20 conversions were confirmed. All early infections ( n=8) were associated with neopterin concentrations of more than 13 nmol/l (98th percentile of all donations = 12.1 nmol/l) and all donations were excluded from transfusion solely on the basis of their elevated neopterin level. In addition, 17% of late and carrier states ( n=12) showed elevated neopterin concentrations. Acute CMV infections among blood donors presented with elevated serum neopterin concentrations even before CMV IgG/IgM antibodies were detectable.

Lack of antibody production following immunization in old age: association with CD8(+)CD28(-) T cell clonal expansions and an imbalance in the production of Th1 and Th2 cytokines.

Although it is generally recognized that the function of the immune system declines with age, the nature of the underlying defects is still poorly understood. We now demonstrate the predominance of CD8(+)CD28(-) T cell clonal expansions in elderly persons who fail to produce specific Abs following influenza vaccination. These clones express effector cell markers and are mostly CD45RA(+). When isolated and put into culture, they are unable to proliferate, but produce IFN-gamma (but no IL-5) upon stimulation with anti-CD3 or autoantigen. These autoreactive CD8(+) type 1 effector cells seem to trigger a Th1 polarization, as CD4(+) T cells from elderly persons without in vivo Ab production produce Th1, but only low amounts of Th2 cytokines upon in vitro stimulation with PHA. Therefore, the increased occurrence of CD8(+)CD28(-) clonal expansions may be decisive for the development of immune deficiency in the elderly.