Genotyping for Human Platelet Alloantigen Polymorphisms: Applications in the Diagnosis of Alloimmune Platelet Disorders

Brian R. Curtis

doi:10.1055/s-0028-1103365

Seminars in Thrombosis and Hemostasis, Table of Contents

Semin Thromb Hemost 2008; 34(6): 539-548
DOI: 10.1055/s-0028-1103365

Genotyping for Human Platelet Alloantigen Polymorphisms: Applications in the Diagnosis of Alloimmune Platelet Disorders

Brian R. Curtis¹

¹BloodCenter of Wisconsin, Technical Director, Platelet & Neutrophil Immunology Laboratory, Milwaukee, Wisconsin

Abstract

ABSTRACT

Molecular typing for platelet allelic polymorphisms was first made possible by discovery of the HPA-1a/1b single nucleotide polymorphism in 1989. Since then, six other biallelic human platelet antigen (HPA) systems have been determined and can be typed using genomic DNA. The introduction of polymerase chain reaction enabled development of several different assays including polymerase chain reaction–sequence-specific primer, melting curve analysis by LightCycler, and 5′-nuclease assays. More recently, multiplex polymerase chain reaction has allowed for the development of high-throughput assays for genotyping large numbers of patients and blood donors for not only platelet gene polymorphisms but also for those of other blood cell genes. Platelet genotyping is a valuable tool in confirming platelet antigen specificities of alloantibodies detected in patient sera to complement the clinical history in the diagnosis of alloimmune platelet disorders such as fetal and neonatal alloimmune thrombocytopenia (FNAIT), posttransfusion purpura, and multiplatelet transfusion refractoriness. In addition, it has made possible prenatal platelet typing of the fetus in suspected cases of FNAIT and large-scale blood donor typing for provision of antigen-negative platelets to transfuse highly alloimmunized patients. Platelet genotyping may also someday prove important as an aid in determining the relative risk of patients for various thrombotic disorders.

KEYWORDS

Platelet genotyping - fetal and neonatal alloimmune thrombocytopenia - posttransfusion purpura - platelet antibodies - human platelet antigens

Full Text

References

REFERENCES

1 Newman P J, Derbes R S, Aster R H. The human platelet alloantigens, PlA1 and PlA2, are associated with a leucine33/proline33 amino acid polymorphism in membrane glycoprotein IIIa, and are distinguishable by DNA typing. J Clin Invest. 1989; 83 1778-1781
2 McFarland J G, Aster R H, Bussel J B, Gianopoulos J G, Derbes R S, Newman P J. Prenatal diagnosis of neonatal alloimmune thrombocytopenia using allele-specific oligonucleotide probes. Blood. 1991; 78 2276-2282
3 Beiboer S H, Wieringa-Jelsma T, Maaskant-Van Wijk P A et al.. Rapid genotyping of blood group antigens by multiplex polymerase chain reaction and DNA microarray hybridization. Transfusion. 2005; 45 667-679
4 Denomme G A, Van Oene M. High-throughput multiplex single-nucleotide polymorphism analysis for red cell and platelet antigen genotypes. Transfusion. 2005; 45 660-666
5 Hashmi G, Shariff T, Seul M et al.. A flexible array format for large-scale, rapid blood group DNA typing. Transfusion. 2005; 45 680-688
6 Stein E L, Santoso S, Behrens G, Mueller-Eckhardt C, Bux J. Genotyping of the granulocyte-specific NA antigens from small quantities of blood or serum. Tissue Antigens. 1995; 45 69-72
7 Hessner M J, Curtis B R, Endean D J, Aster R H. Determination of neutrophil antigen gene frequencies in five ethnic groups by polymerase chain reaction with sequence-specific primers. Transfusion. 1996; 36 895-899
8 Bux J. Molecular nature of granulocyte antigens. Transfus Clin Biol. 2001; 8 242-247
9 Metcalfe P, Watkins N A, Ouwehand W H et al.. Nomenclature of human platelet antigens. Vox Sang. 2003; 85 240-245
10 Bertrand G, Bianchi F, Alexandre M et al.. HPA-13bw neonatal alloimmune thrombocytopenia and low frequency alloantigens: case report and review of the literature. Transfusion. 2007; 47 1510-1513
11 Peterson J A, Gitther M, Pietz B C, Johnson S C, Balthazor S M, Aster R H. Rare antigens in neonatal alloimmune thrombocytopenia. J Thromb Haemost. 2007; 5(suppl) , O-T-028 (Abst)
12 Curtis B R, McFarland J G. Platelet immunology and alloimmunization. In: Simon TL, Dzik WH, Snyder E, Stowell CP, Strauss RG Rossi's Principles of Transfusion Medicine. 4th ed. Philadelphia, PA; Lippincott Williams & Wilkins 2008: 203-217
13 Curtis B R, Ali S, Glazier A M, Ebert D D, Aitman T J, Aster R H. Isoimmunization against CD36 (glycoprotein IV): description of four cases of neonatal isoimmune thrombocytopenia and brief review of the literature. Transfusion. 2002; 42 1173-1179
14 Curtis B R, Donnelly S F, Mintz P D, Boos V X, Hetzel S L, Aster R H. Platelet transfusion refractoriness in a African American patient due to ant-Nak(a). Transfusion. 1997; 37(suppl) 96S , (Abst)
15 Beyer G M, Martin M A, Nash T, Curtis B R, Harrison C R. Platelet refractoriness secondary to platelet specific antibody against glycoprotein IV (CD36). Transfusion. 2007; 47(suppl) 196A , (Abst)
16 Bierling P, Godeau B, Fromont P et al.. Posttransfusion purpura-like syndrome associated with CD36 (Naka) isoimmunization. Transfusion. 1995; 35 777-782
17 Slichter S J. Platelet refractoriness and alloimmunization. Leukemia. 1998; 12(Suppl 1) S51-S53
18 Hurd C M, Cavanagh G, Schuh A, Ouwehand W H, Metcalfe P. Genotyping for platelet-specific antigens: techniques for the detection of single nucleotide polymorphisms. Vox Sang. 2002; 83 1-12
19 Skogen B, Bellissimo D B, Hessner M J et al.. Rapid determination of platelet alloantigen genotypes by polymerase chain reaction using allele-specific primers. Transfusion. 1994; 34 955-960
20 Nauck M S, Gierens H, Nauck M A, Marz W, Wieland H. Rapid genotyping of human platelet antigen 1 (HPA-1) with fluorophore-labelled hybridization probes on the LightCycler. Br J Haematol. 1999; 105 803-810
21 Kretzschmar E, Von Ahsen N, Trobisch H. Rapid genotyping of human platelet antigen 5 with fluorophore-labelled hybridization probes on the LightCycler. Br J Haematol. 2001; 114 397-399
22 Randen I, Sorensen K, Killie M K, Kjeldsen-Kragh J. Rapid and reliable genotyping of human platelet antigen (HPA)-1, -2, -3, -4, and -5 a/b and Gov a/b by melting curve analysis. Transfusion. 2003; 43 445-450
23 Kjaer K M, Jaegtvik S, Husebekk A, Skogen B. Human platelet antigen 1 (HPA 1) genotyping with 5′ nuclease assay and sequence-specific primers reveals a single nucleotide deletion in intron 2 of the HPA 1a allele of platelet glycoprotein IIIa. Br J Haematol. 2002; 117 405-408
24 Bugert P, McBride S, Smith G et al.. Microarray-based genotyping for blood groups: comparison of gene array and 5′-nuclease assay techniques with human platelet antigen as a model. Transfusion. 2005; 45 654-659
25 Wu Y Y, Csako G. Rapid and/or high-throughput genotyping for human red blood cell, platelet and leukocyte antigens, and forensic applications. Clin Chim Acta. 2006; 363 165-176
26 Avent N D. Large scale blood group genotyping. Transfus Clin Biol. 2007; 14 10-15
27 Curtis B R, Fick A, Lochowicz A J et al.. Neonatal alloimmune thrombocytopenia associated with maternal-fetal incompatibility for blood group B. Transfusion. 2008; 48 358-364
28 Quill E. Medicine. Blood-matching goes genetic. Science. 2008; 319 1478-1479
29 Peterson J A, Balthazor S M, Curtis B R, McFarland J G, Aster R H. Maternal alloimmunization against the rare platelet-specific antigen HPA-9b (Max a) is an important cause of neonatal alloimmune thrombocytopenia. Transfusion. 2005; 45 1487-1495
30 Kaplan C, Porcelijn L, Vanlieferinghen P et al.. Anti-HPA-9bw (Max a) fetomaternal alloimmunization, a clinically severe neonatal thrombocytopenia: difficulties in diagnosis and therapy and report on eight families. Transfusion. 2005; 45 1799-1803
31 Bertrand G, Bianchi F, Chenet C et al.. New mutation in the platelet beta3-integrin gene: implication for the diagnosis of fetomaternal alloimmunization. Transfusion. 2006; 46 2138-2141
32 Skogen B, Wang R, McFarland J G, Newman P J. A dinucleotide deletion in exon 4 of the PlA2 allelic form of glycoprotein IIIa: implications for the correlation of serologic versus genotypic analysis of human platelet alloantigens. Blood. 1996; 88 3831-3836
33 Smith G A, Rankin A, Riddle C et al.. Severe fetomaternal alloimmune thrombocytopenia due to anti-human platelet antigen (HPA)-1a in a mother with a rare and silenced ITGB3*0101 (GPIIIa) allele. Vox Sang. 2007; 93 325-330
34 Watkins N A, Schaffner-Reckinger E, Allen D L et al.. HPA-1a phenotype-genotype discrepancy reveals a naturally occurring Arg93Gln substitution in the platelet beta 3 integrin that disrupts the HPA-1a epitope. Blood. 2002; 99 1833-1839
35 Hessner M J, Agostini T A, Bellissimo D B, Endean D J, Pircon R A, Kirschbaum N E. The sensitivity of allele-specific polymerase chain reaction can obviate concern of maternal contamination when fetal samples are genotyped for immune cytopenic disorders. Am J Obstet Gynecol. 1997; 176 327-333
36 Mueller-Eckhardt C, Kiefel V, Grubert A et al.. 348 cases of suspected neonatal alloimmune thrombocytopenia. Lancet. 1989; 1 363-366
37 Davoren A, Curtis B R, Aster R H, McFarland J G. Human platelet antigen-specific alloantibodies implicated in 1162 cases of neonatal alloimmune thrombocytopenia. Transfusion. 2004; 44 1220-1225
38 Williamson L M, Hackett G, Rennie J et al.. The natural history of fetomaternal alloimmunization to the platelet-specific antigen HPA-1a (PlA1, Zwa) as determined by antenatal screening. Blood. 1998; 92 2280-2287
39 Daniels G, Finning K, Martin P, Soothill P. Fetal blood group genotyping from DNA from maternal plasma: an important advance in the management and prevention of haemolytic disease of the fetus and newborn. Vox Sang. 2004; 87 225-232
40 Murphy M F, Bussel J B. Advances in the management of alloimmune thrombocytopenia. Br J Haematol. 2007; 136 366-378
41 Berkowitz R L, Bussel J B, McFarland J G. Alloimmune thrombocytopenia: state of the art 2006. Am J Obstet Gynecol. 2006; 195 907-913
42 Berkowitz R L, Kolb E A, McFarland J G et al.. Parallel randomized trials of risk-based therapy for fetal alloimmune thrombocytopenia. Obstet Gynecol. 2006; 107 91-96
43 Berkowitz R L, Lesser M L, McFarland J G et al.. Antepartum treatment without early cordocentesis for standard-risk alloimmune thrombocytopenia: a randomized controlled trial. Obstet Gynecol. 2007; 110 249-255
44 Bussel J B, Berkowitz R L, McFarland J G. Maternal IVIG in neonatal alloimmune thrombocytopenia. Br J Haematol. 1997; 98 493-494
45 Flug F, Karpatkin M, Karpatkin S. Should all pregnant women be tested for their platelet PLA (Zw, HPA-1) phenotype?. Br J Haematol. 1994; 86 1-5
46 Kjeldsen-Kragh J, Killie M K, Tomter G et al.. A screening and intervention program aimed to reduce mortality and serious morbidity associated with severe neonatal alloimmune thrombocytopenia. Blood. 2007; 110 833-839
47 Killie M K, Kjeldsen-Kragh J, Husebekk A, Skogen B, Olsen J A, Kristiansen I S. Cost-effectiveness of antenatal screening for neonatal alloimmune thrombocytopenia. BJOG. 2007; 114 588-595
48 McFarland J G. Post-transfusion purpura. In: Popovsky MA Transfusion Reactions. 3rd ed. Bethesda, MD; AABB Press 2007: 275-294
49 Slichter S J. Algorithm for managing the platelet refractory patient. J Clin Apher. 1997; 12 4-9
50 Benson K. Criteria for diagnosing refractoriness to platelet transfusions. In: Kickler TS, Herman JH Current Issues in Platelet Transfusion Therapy and Platelet Alloimmunity. Bethesda, MD; AABB Press 1999: 33-55
51 Delaflor-Weiss E, Mintz P D. The evaluation and management of platelet refractoriness and alloimmunization. Transfus Med Rev. 2000; 14 180-196
52 Doughty H A, Murphy M F, Metcalfe P, Rohatiner A Z, Lister T A, Waters A H. Relative importance of immune and non-immune causes of platelet refractoriness. Vox Sang. 1994; 66 200-205
53 Bishop J F, McGrath K, Wolf M M et al.. Clinical factors influencing the efficacy of pooled platelet transfusions. Blood. 1988; 71 383-387
54 Alcorta I, Pereira A, Ordinas A. Clinical and laboratory factors associated with platelet transfusion refractoriness: a case-control study. Br J Haematol. 1996; 93 220-224
55 McFarland J G, Anderson A J, Slichter S J. Factors influencing the transfusion response to HLA-selected apheresis donor platelets in patients refractory to random platelet concentrates. Br J Haematol. 1989; 73 380-386
56 The Trial to Reduce Alloimmunization to Platelets Study Group . Leukocyte reduction and ultraviolet B irradiation of platelets to prevent alloimmunization and refractoriness to platelet transfusions. N Engl J Med. 1997; 337 1861-1869
57 Kiefel V, Konig C, Kroll H, Santoso S. Platelet alloantibodies in transfused patients. Transfusion. 2001; 41 766-770
58 Taaning E, Simonsen A C, Hjelms E, Svejgaard A, Morling N. Platelet alloimmunization after transfusion. A prospective study in 117 heart surgery patients. Vox Sang. 1997; 72 238-241
59 Langenscheidt F, Kiefel V, Santoso S, Mueller-Eckhardt C. Platelet transfusion refractoriness associated with two rare platelet-specific alloantibodies (anti-Baka and anti-PlA2) and multiple HLA antibodies. Transfusion. 1988; 28 597-600
60 Chong B H, Ho S J. Autoimmune thrombocytopenia. J Thromb Haemost. 2005; 3 1763-1772
61 Aster R H, Bougie D W. Drug-induced immune thrombocytopenia. N Engl J Med. 2007; 357 580-587
62 Nurden A T. Polymorphisms and platelet genotyping: the shape of things to come. J Thromb Haemost. 2006; 4 1194-1196
63 Ouwehand W H. Platelet genomics and the risk of atherothrombosis. J Thromb Haemost. 2007; 5(Suppl 1) 188-195
64 Bray P F, Howard T D, Vittinghoff E, Sane D C, Herrington D M. Effect of genetic variations in platelet glycoproteins Ibalpha and VI on the risk for coronary heart disease events in postmenopausal women taking hormone therapy. Blood. 2007; 109 1862-1869
65 Weiss E J, Bray P F, Tayback M et al.. A polymorphism of a platelet glycoprotein receptor as an inherited risk factor for coronary thrombosis. N Engl J Med. 1996; 334 1090-1094
66 Bray P F. Platelet glycoprotein polymorphisms as risk factors for thrombosis. Curr Opin Hematol. 2000; 7 284-289
67 Benze G, Heinrich J, Schulte H et al.. Association of the GPIa C807T and GPIIIa PlA1/A2 polymorphisms with premature myocardial infarction in men. Eur Heart J. 2002; 23 325-330
68 Muller T H, Doscher A, Schunter F. Genotyping of the human platelet antigen-1 by ELISA detection of allele-specific amplicons. Vox Sang. 1997; 73 185-188
69 Legler T J, Kohler M, Mayr W R, Panzer S, Ohto H, Fischer G F. Genotyping of the human platelet antigen systems 1 through 5 by multiplex polymerase chain reaction and ligation-based typing. Transfusion. 1996; 36 426-431
70 Meyer O, Abou-Chaker K, Heymann G, Bombard S, Kiesewetter H, Salama A. Human platelet antigen genotyping by using sequence-specific primers and the particle gel agglutination assay. Vox Sang. 2005; 88 271-274

Brian R Curtis

BloodCenter of Wisconsin, Technical Director, Platelet & Neutrophil Immunology Laboratory

P.O. Box 2178, Milwaukee, WI 53201-2178

Email: brian.curtis@bcw.edu