PM Bleeker scite author profile

PM Bleeker

3Publications

143Citation Statements Received

9Citation Statements Given

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Affiliations

Dutch Blood Transfusion Society, University of Amsterdam

Publications

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Determination of human platelet antigen frequencies in the Dutch population by immunophenotyping and DNA (allele-specific restriction enzyme) analysis

Şimşek

Faber

Bleeker

et al. 1993

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Platelets from 200 random Dutch blood donors were typed for the human platelet alloantigens HPA-1 to -5 recognized at present and for Naka. Naka is an epitope on glycoprotein IV, not expressed on the platelet of individuals with hereditary GP IV deficiency. Platelet immunofluorescence and monoclonal antibody-specific immobilization of platelet antigens (MAIPA) were applied for this purpose. The observed phenotype frequencies were 97.86% and 28.64% for HPA-1a and -1b, 100% and 13.15% for HPA-2a and -2b, 80.95% and 69.84% for HPA-3a and -3b, 100% and 0% for HPA-4a and -4b, 100% and 19.7% for HPA-5a and HPA-5b, respectively. Platelets from all donors reacted with the anti-Naka antibodies. To determine the gene frequencies for the HPA-1, HPA-2 and HPA-3 systems directly, DNA from 98 of these donors was isolated from peripheral blood mononuclear leucocytes and specific fragments were amplified by polymerase chain reaction (PCR). The fragments were analyzed using allele-specific restriction enzymes (ASRA). In all amplified PCR products an “internal control” for each assay, ie, a restriction site for the applied enzyme independent from the phenotype of the donor was present. In all donors tested, phenotypes, as determined by serological methods and genotypes, directly determined by the ASRA, were identical. Thus, the PCR-ASRA described in this report is a practical and reliable technique for the determination of alleles that code for platelet antigen allotypes, at least in the Dutch population.

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Sequence Analysis of cDNA Derived from Reticulocyte mRNAs Coding for Rh Polypeptides and Demonstration of E/e and C/c Polymorphisms

Şimşek

et al. 1994

Vox Sanguinis

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RNA derived from enriched reticulocytes of Rh-phenotyped donors was isolated, reversely transcribed into cDNA and amplified with Rh-specific primers by polymerase chain reaction. Nucleotide sequence analysis of the entire coding region of the Rh cDNAs was carried out. Four types of cDNAs were identified, tentatively designated as RhSCI, RhSCII, RhSCIII and RhSCIV. Comparison of RhSCII with RhSCI (identical to the previously reported RhIXb/30A cDNA), showed single base pair difference. Since RhSCI and RhSCII were found to be related to the presence of E or e antigen, respectively, the P226A amino acid polymorphism appears to be the genetic basis of the E/e polymorphism. RhSCIII was demonstrated to be a transcript derived from the RhD gene, with 35 amino acid substitutions as compared to RhSCI. RhSCIV was found to be present only in RhC-positive individuals, indicating that RhSCIV encodes a polypeptide carrying the C antigen. Six nucleotide changes, resulting in four amino acid substitutions W16C, L60I, N68S and P103S, were observed between RhSCII and RhSCIV, probably representing the C/c polymorphism.

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Localization of the platelet-specific HPA-2 (Ko) alloantigens on the N- terminal globular fragment of platelet glycoprotein Ib alpha

Kuijpers

Ouwehand

Bleeker

et al. 1992

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The human platelet-specific alloantigens HPA-2a and HPA-2b (= Kob and Koa) together constitute a biallelic antigen system. The HPA-2 antigens have not, to date, been located on a particular platelet membrane molecule. Here, we describe the localization of these antigens on platelet glycoprotein (GP) Ib alpha. Platelets from two patients with the Bernard-Soulier syndrome (BSS) were HPA-2(a-,b-) in the immunofluorescence test with HPA-2 alloantibodies on chloroquine- treated platelets. With monoclonal antibody (MoAb) immobilization of platelet antigen assay (MAIPA), positive reactions were obtained only when MoAbs against the platelet GPIb/IX complex were used in combination with anti-HPA-2a or -2b alloantibodies and normal donor platelets. By immunoprecipitation under nonreducing and reducing conditions a protein of 160 Kd and 145 Kd, respectively, was precipitated by the anti-HPA-2a serum. A protein migrating identically to this was precipitated by anti-GPIb MoAb. Normal donor platelets became HPA-2(a-,b-) after elastase treatment, suggesting that anti-HPA- 2 antibodies bind to the N-terminal elastase-sensitive part of GPIb alpha. Anti-HPA-2a antibodies inhibited the ristocetin-induced agglutination of HPA-2a-positive platelets but not of HPA-2a-negative platelets, indicating that the epitopes recognized by these alloantibodies are localized in the proximity of the von Willebrand- factor-binding domain. Together, these data provide evidence that the HPA-2 alloantigens are located on the N-terminal globular elastase- sensitive part of GPIb alpha. Furthermore, we show that the recently described Siba antigen is probably identical to HPA-2a.

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PM Bleeker

Determination of human platelet antigen frequencies in the Dutch population by immunophenotyping and DNA (allele-specific restriction enzyme) analysis

Sequence Analysis of cDNA Derived from Reticulocyte mRNAs Coding for Rh Polypeptides and Demonstration of E/e and C/c Polymorphisms

Localization of the platelet-specific HPA-2 (Ko) alloantigens on the N- terminal globular fragment of platelet glycoprotein Ib alpha

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