BACKGROUND: Antibodies specific for the neutrophil antigen HNA-3a cause severe, sometimes fatal transfusion-related acute lung disease (TRALI) when transfused, but it has not been possible to screen blood donors for anti-HNA-3a because using neutrophils as targets was impractical and molecular properties of the antigen were unknown. Recently it was shown that HNA-3a is carried on choline transporter-like protein-2 (CTL2) and that the HNA-3a/b phenotype is closely correlated with an R154Q amino acid polymorphism in CTL2. However, it has not been shown by direct experiment that R154 is essential for the HNA-3a epitope. STUDY DESIGN AND METHODS: Preliminary attempts to express recombinant full-length CTL2 (R154) recognized by anti-HNA-3a were unsuccessful. We therefore tested HNA-3a-specific antibodies from donors implicated in TRALI reactions for reactivity against chemically synthesized linear and cyclic CTL2 peptides containing R154 or Q154. RESULTS: Nine of 20 HNA-3a antibodies recognized the R154, but not the Q154 version of a cyclic 36-residue CTL2 peptide (D131-K166). However, 11 others failed to distinguish between the two versions of this peptide. CONCLUSION: The findings provide direct evidence that R154 in the context of CTL2 D131-K166 is necessary to create the HNA-3a epitope but, in the context of cyclic CTL2 peptide D131-K166, is sufficient to detect only about one-half of the HNA-3a-specific antibodies implicated in TRALI. It is likely that fragments of CTL2 longer than can be made on a large scale with an automated synthesizer will be needed to produce a target capable of detecting all examples of anti-HNA-3a in donated blood.
BACKGROUND: Antibodies specific for the neutrophil antigen HNA-3a cause severe, sometimes fatal transfusion-related acute lung disease (TRALI) when transfused, but it has not been possible to screen blood donors for anti-HNA-3a because using neutrophils as targets was impractical and molecular properties of the antigen were unknown. Recently it was shown that HNA-3a is carried on choline transporter-like protein-2 (CTL2) and that the HNA-3a/b phenotype is closely correlated with an R154Q amino acid polymorphism in CTL2. However, it has not been shown by direct experiment that R154 is essential for the HNA-3a epitope. STUDY DESIGN AND METHODS: Preliminary attempts to express recombinant full-length CTL2 (R154) recognized by anti-HNA-3a were unsuccessful. We therefore tested HNA-3a-specific antibodies from donors implicated in TRALI reactions for reactivity against chemically synthesized linear and cyclic CTL2peptides containing R154 or Q154. RESULTS: Nine of 20 HNA-3a antibodies recognized the R154, but not the Q154 version of a cyclic 36-residue CTL2 peptide (D131-K166). However, 11 others failed to distinguish between the two versions of this peptide. CONCLUSION: The findings provide direct evidence that R154 in the context of CTL2 D131-K166 is necessary to create the HNA-3a epitope but, in the context of cyclic CTL2 peptide D131-K166, is sufficient to detect only about one-half of the HNA-3a-specific antibodies implicated in TRALI. It is likely that fragments of CTL2 longer than can be made on a large scale with an automated synthesizer will be needed to produce a target capable of detecting all examples of anti-HNA-3a in donated blood.
Authors: A Davoren; B R Curtis; I A Shulman; A F Mohrbacher; J Bux; B J Kwiatkowska; J G McFarland; R H Aster Journal: Transfusion Date: 2003-05 Impact factor: 3.157
Authors: H Take; Y Tomiyama; Y Shibata; T Furubayashi; S Honda; H Mizutani; T Nishiura; T Tsubakio; Y Kurata; T Yonezawa Journal: Br J Haematol Date: 1990-11 Impact factor: 6.998
Authors: Thankam S Nair; Kelley E Kozma; Nickoleta L Hoefling; Pavan K Kommareddi; Yo Ueda; Tzy-Wen Gong; Margaret I Lomax; Christopher D Lansford; Steven A Telian; Bulent Satar; H Alexander Arts; Hussam K El-Kashlan; Wayne E Berryhill; Yehoash Raphael; Thomas E Carey Journal: J Neurosci Date: 2004-02-18 Impact factor: 6.167
Authors: Brian R Curtis; Nancy J Cox; Mia J Sullivan; Anuar Konkashbaev; Krista Bowens; Kirk Hansen; Richard H Aster Journal: Blood Date: 2009-12-29 Impact factor: 22.113
Authors: Adam J Kanack; Julie A Peterson; Mia J Sullivan; Daniel W Bougie; Brian R Curtis; Richard H Aster Journal: Transfusion Date: 2011-10-27 Impact factor: 3.157
Authors: Nicole Schubert; Tom Berthold; Stefan Muschter; Jan Wesche; Birgitt Fürll; Angelika Reil; Jürgen Bux; Tamam Bakchoul; Andreas Greinacher Journal: Blood Transfus Date: 2013-07-11 Impact factor: 3.443
Authors: Pavan Kommareddi; Thankam Nair; Bala Naveen Kakaraparthi; Maria M Galano; Danielle Miller; Irina Laczkovich; Trey Thomas; Lillian Lu; Kelli Rule; Lisa Kabara; Ariane Kanicki; Elizabeth D Hughes; Julie M Jones; Mark Hoenerhoff; Susan G Fisher; Richard A Altschuler; David Dolan; David C Kohrman; Thomas L Saunders; Thomas E Carey Journal: J Assoc Res Otolaryngol Date: 2015-12