Abstract
Human neutrophils express two polymorphic forms (NA1 and NA2) of Fc receptor III (FcRIII), which differ structurally and antigenically. We recently isolated FcRIII cDNAs from NA1NA1 and NA2NA2 homozygotes and determined that they differ only at five nucleotides, predicting four amino acid substitutions. To determine whether the cDNAs that we isolated actually encode proteins that differ structurally and that react appropriately with anti-NA1 and anti-NA2 antibodies, we transfected Chinese hamster ovary (CHO) cells with constructs containing either the NA1 FcRIII cDNA or the NA2 FcRIII cDNA. The receptors on transfected CHO cells were then compared with the receptors on normal human neutrophils from an NA1NA2 heterozygote. After immunoprecipitation and treatment with N-glycanase, receptors isolated from surface-labeled CHO cells transfected with the NA1 FcRIII cDNA had an apparent molecular mass of 29 Kd after sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), while the receptors isolated from CHO cells transfected with the NA2 FcRIII cDNA had an apparent molecular mass of 33 Kd. Identical 29-Kd and 33-Kd bands were observed when receptors isolated from surface-labeled neutrophils of an NA1NA2 heterozygote were treated similarly. Using a cell-free rabbit reticulocyte lysate system, we translated NA1 FcRIII and NA2 FcRIII RNAs in vitro and also found differences in the apparent molecular masses of the two forms of the receptor. Finally, reactivity of transfected CHO cells with anti-NA monoclonal and alloantibodies confirmed that the cDNAs we isolated actually encode the NA1 and NA2 forms of neutrophil FcRIII.