Neonatal alloimmune thrombocytopenia due to a new alloantigen Bl(a) defined by an Asp458Gly substitution in GPIIIa.

BACKGROUND: Neonatal alloimmune thrombocytopenia (NAIT) commonly arises due to antibodies against a small number of well-defined human platelet antigens (HPAs). A minority of NAIT cases occur due to maternal immunization against low-frequency polymorphisms in platelet glycoprotein that result in new immunogenic epitopes. Antibodies to these novel epitopes can be detected by the incubation of maternal serum with paternal platelets and is usually performed after initial investigation using HPA-typed panel platelets has failed to provide evidence of NAIT. STUDY DESIGN AND METHODS: The propositus and the parents from a case of suspected neonatal alloimmune thrombocytopenia (NAIT) were investigated using serologic and molecular techniques to detect and identify relevant platelet-specific antibodies and for HPA typing. Calculations of molecular dynamics were undertaken to explore potential variations in the molecular structure. RESULTS: Maternal antibodies were detected that were reactive only in crossmatch with paternal platelets using the platelet immunofluorescence test (PIFT) and a GPIIb/IIIa monoclonal antibody immobilization of platelet antigen (MAIPA) assay. In the propositus and father, a novel mutation c.1373 A > G was found in exon 10 of ITGB3 resulting in the substitution of an aspartic acid for a glycine (p.Asp458Gly). Recombinant GPIIIa glycoprotein mutated to contain the novel mutation and expressed in HEK293 cells with GPIIb was also specifically recognized by maternal antibodies. Calculations of molecular dynamics identified that the mutation was in a structurally constrained site. CONCLUSION: This case describes a low-frequency platelet antigen (Asp458Gly) that defines a further alloantigenic target in NAIT. The case emphasizes the role of the platelet crossmatch as the single most useful tool to establish evidence of immunization of low-frequency platelet glycoprotein polymorphisms. A crossmatch should always be performed where there is strong clinical evidence of NAIT but initial laboratory investigations are not confirmatory.

HLA-A, -B and -C allele and haplotype frequencies defined by next generation sequencing in a population of 519 English blood donors.

Whole gene next generation sequencing was used to determine the HLA class I haplotype and allele frequencies in a cohort of 519 English blood donors. This is the first report of HLA frequencies at third field resolution in a UK population with a total of 33, 52 and 30 alleles identified for HLA-A, -B and -C, respectively. Of the 1411 haplotypes determined, 281 had a frequency of greater than 0.05%. Data are available from the Allele Frequencies Net Database under the population name 'England Blood Donors of Mixed Ethnicity', identifier 3392.

Simultaneous human platelet antigen genotyping and detection of novel single nucleotide polymorphisms by targeted next-generation sequencing.

BACKGROUND: Twenty-nine human platelet antigen systems have been described to date, but the majority of current genotyping methods are restricted to the identification of those most commonly associated with alloantibody production in a clinical context. This can result in a protracted investigation if causative human platelet antigens are rare or novel. A targeted next-generation sequencing approach was designed to detect all known human platelet antigens with the additional capability of identifying novel mutations in the encoding genes. STUDY DESIGN AND METHODS: A targeted enrichment, high-sensitivity HaloPlex assay was designed to sequence all exons and flanking regions of the six genes known to encode human platelet antigens. Indexed DNA libraries were prepared from 47 previously human platelet antigen-genotyped samples and subsequently combined into one of three pools for sequencing on an Illumina MiSeq platform. The generated FASTQ files were aligned and scrutinized for each human platelet antigen polymorphism using SureCall data analysis software. RESULTS: Forty-six samples were successfully genotyped for human platelet antigens 1 through 29bw, with an average per base coverage depth of 1144. Concordance with historical human platelet antigen genotypes was 100%. A putative novel mutation in Exon 10 of the integrin ß-3 (ITGB3) gene from an unsolved case of fetal neonatal alloimmune thrombocytopenia was also detected. CONCLUSION: A next-generation sequencing-based method that can accurately define all known human platelet antigen polymorphisms was developed. With the ability to sequence up to 96 samples simultaneously, our HaloPlex design could be used for high-throughput human platelet antigen genotyping. This method is also applicable for investigating fetal neonatal alloimmune thrombocytopenia when rare or novel human platelet antigens are suspected.

The London Cord Blood Bank: analysis of banking and transplantation outcome.

Cord blood units (n = 5500) stored at the London Cord Blood Bank, including 59 units transplanted into a high risk and heterogeneous group of patients, were analysed. Transplant outcome data was available for 44 patients with a median clinical follow-up of 14 months (range 3-44 months). Over 40% of the collected units were of ethnic minority origin with a median volume of 79 ml (range 40-240 ml) and a median total nucleated cell (TNC) count of 11.9 x 10(9)/l (range 10.0-24.8 x 10(9)/l). The average patient's weight was 28 kg (range 5-80 kg) and the median age was 8 years (range 0.7-40 years). The median number of nucleated cells infused was 4 x 10(7)/kg (range 1.10-16 x 10(7)/kg). Neutrophil engraftment of 0.5 x 10(9)/l was observed in 33 (74+/-%) patients with an average time of 28 days (range 11-60). The Kaplan-Meier estimate of acute graft-versus-host disease (grade II >) at day 100 was 37 +/- 7% and in 27 (62%) patients, it was grade I or absent. The overall survival and disease-free survival at 2 years was 49 +/- 8% and 41 +/- 8%, respectively. Two years after transplantation the survival rate was 69% and 54% for patients receiving a 6/6 or 5/6 HLA matched units, respectively. Infection was the main cause of transplanted related mortality in these patients.