BACKGROUND: HNA-3a-specific antibodies can cause severe, sometimes fatal, transfusion-related acute lung injury when present in transfused blood. The HNA3-a/b antigens are determined by an R154Q polymorphism in the first of five extracellular (EC) loops of the 10-membrane-spanning choline transporter-like protein 2 (CTL2) expressed on neutrophils, lymphocytes, and other tissues. Approximately 50% of HNA-3a antibodies (Type 1) can be detected using CTL2 Loop 1 peptides containing R154; the remaining 50% (Type 2) fail to recognize this target. Understanding the basis for this difference could guide efforts to develop practical assays to screen blood donors for HNA-3 antibodies. STUDY DESIGN AND METHODS: Reactions of HNA-3a antibodies against recombinant versions of human, mouse, and human/mouse (chimeric) CTL2 were characterized using flow cytometry and various solid-phase assays. RESULTS: The findings show that, for binding to CTL2, Type 2 HNA-3a antibodies require nonpolymorphic amino acid residues in the third, and possibly the second, EC loops of CTL2 to be in a configuration comparable to that found naturally in the cell membrane. In contrast, Type 1 antibodies require only peptides from the first EC loop that contain R154 for recognition. CONCLUSION: Although Type 1 HNA-3a antibodies can readily be detected in solid-phase assays that use a CTL2 peptide containing R154 as a target, development of a practical test to screen blood donors for Type 2 antibodies will pose a serious technical challenge because of the complex nature of the epitope(s) recognized by this antibody subgroup.
BACKGROUND: HNA-3a-specific antibodies can cause severe, sometimes fatal, transfusion-related acute lung injury when present in transfused blood. The HNA3-a/b antigens are determined by an R154Q polymorphism in the first of five extracellular (EC) loops of the 10-membrane-spanning choline transporter-like protein 2 (CTL2) expressed on neutrophils, lymphocytes, and other tissues. Approximately 50% of HNA-3a antibodies (Type 1) can be detected using CTL2 Loop 1 peptides containing R154; the remaining 50% (Type 2) fail to recognize this target. Understanding the basis for this difference could guide efforts to develop practical assays to screen blood donors for HNA-3 antibodies. STUDY DESIGN AND METHODS: Reactions of HNA-3a antibodies against recombinant versions of human, mouse, and human/mouse (chimeric) CTL2 were characterized using flow cytometry and various solid-phase assays. RESULTS: The findings show that, for binding to CTL2, Type 2 HNA-3a antibodies require nonpolymorphic amino acid residues in the third, and possibly the second, EC loops of CTL2 to be in a configuration comparable to that found naturally in the cell membrane. In contrast, Type 1 antibodies require only peptides from the first EC loop that contain R154 for recognition. CONCLUSION: Although Type 1 HNA-3a antibodies can readily be detected in solid-phase assays that use a CTL2 peptide containing R154 as a target, development of a practical test to screen blood donors for Type 2 antibodies will pose a serious technical challenge because of the complex nature of the epitope(s) recognized by this antibody subgroup.
Authors: Grace M Thomas; Carla Carbo; Brian R Curtis; Kimberly Martinod; Irina B Mazo; Daphne Schatzberg; Stephen M Cifuni; Tobias A Fuchs; Ulrich H von Andrian; John H Hartwig; Richard H Aster; Denisa D Wagner Journal: Blood Date: 2012-05-17 Impact factor: 22.113
Authors: Brigitte K Flesch; Jan Wesche; Tom Berthold; Torsten Goldmann; Matthias Hundt; Andreas Greinacher; Jürgen Bux Journal: Transfusion Date: 2013-03-11 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: R Kanai; T Iijima; S Hashimoto; H Nakazawa; H Ohnishi; T Yorozu; R Ohkawa; T Nojiri; M Shimizu; H Okazaki Journal: Transfus Med Date: 2013-07-10 Impact factor: 2.019
Authors: Gavin Falk; Charles G Winans; Krista Bowens; Daniel W Bougie; Brian R Curtis; Richard H Aster Journal: Am J Hematol Date: 2016-06-03 Impact factor: 10.047