Robert G Hamilton1, Thomas S Kickler. 1. Division of Allergy and Clinical Immunology and Hematology, Departments of Medicine and Pathology, Johns Hopkins University School of Medicine, Baltimore, Maryland 21224, USA. Rhamilto@jhmi.edu
Abstract
BACKGROUND: Bovine hemoglobin (Hb)-based oxygen carrier (HbOC-201; Hb glutamer-250, Hemopure, Biopure Corp.) is a blood replacement and augmentation drug that increases oxygen-carrying capacity of circulating blood in patients with anemia and acute blood loss. The objective of this study was to assess the biologic significance (cross-reactivity, hemolysis) of humoral immune responses in humans receiving repetitive HbOC-201 administrations. STUDY DESIGN AND METHODS: Serum samples containing immunoglobulin G (IgG) anti-HbOC-201 (n = 146) or no antibody (n = 16) were collected from subjects receiving HbOC-201 in clinical studies. IgG anti-HbOC-201 levels were quantified and the extent of cross-reactivity to human hemoglobin (HuHb) was assessed in direct-binding and competitive-inhibition immunoassays. Serum samples containing the highest levels of IgG anti-HbOC-201 were studied in a complement-mediated hemolysis assay for their ability to lyse human red cells (RBCs). RESULTS: The IgG anti-HbOC-201 levels in the antibody-positive serum samples ranged from 0.7 to 86.8 mug per mL. Of the 146 IgG anti-HbOC-201-positive serum samples, 88.4 percent contained IgG antibodies whose binding to solid-phase HbOC-201 was competitively inhibited by incubation with soluble HuHb (11.6% [<20% inhibition]; 63% [20%-80% inhibition]; and 25.4% [>81% inhibition]). Direct-binding analysis to solid-phase HuHb confirmed that 74 percent contained IgG antibodies reactive with HuHb. Dichotomous competitive inhibition and direct-binding IgG anti-HuHb data correlated significantly (r(2) = 0.77, p < 0.001). Serum samples with the highest levels of IgG anti-HuHb, as identified from clinical studies, did not lyse human RBCs in the presence of exogenous complement or induce the direct sensitization of RBCs with human IgG or complement. CONCLUSION: These analyses indicate that HbOC-201 administration elicits IgG antibodies in humans that react with bovine and HuHb, but do not cause hemolysis in vitro.
BACKGROUND:Bovine hemoglobin (Hb)-based oxygen carrier (HbOC-201; Hb glutamer-250, Hemopure, Biopure Corp.) is a blood replacement and augmentation drug that increases oxygen-carrying capacity of circulating blood in patients with anemia and acute blood loss. The objective of this study was to assess the biologic significance (cross-reactivity, hemolysis) of humoral immune responses in humans receiving repetitive HbOC-201 administrations. STUDY DESIGN AND METHODS: Serum samples containing immunoglobulin G (IgG) anti-HbOC-201 (n = 146) or no antibody (n = 16) were collected from subjects receiving HbOC-201 in clinical studies. IgG anti-HbOC-201 levels were quantified and the extent of cross-reactivity to human hemoglobin (HuHb) was assessed in direct-binding and competitive-inhibition immunoassays. Serum samples containing the highest levels of IgG anti-HbOC-201 were studied in a complement-mediated hemolysis assay for their ability to lyse human red cells (RBCs). RESULTS: The IgG anti-HbOC-201 levels in the antibody-positive serum samples ranged from 0.7 to 86.8 mug per mL. Of the 146 IgG anti-HbOC-201-positive serum samples, 88.4 percent contained IgG antibodies whose binding to solid-phase HbOC-201 was competitively inhibited by incubation with soluble HuHb (11.6% [<20% inhibition]; 63% [20%-80% inhibition]; and 25.4% [>81% inhibition]). Direct-binding analysis to solid-phase HuHb confirmed that 74 percent contained IgG antibodies reactive with HuHb. Dichotomous competitive inhibition and direct-binding IgG anti-HuHb data correlated significantly (r(2) = 0.77, p < 0.001). Serum samples with the highest levels of IgG anti-HuHb, as identified from clinical studies, did not lyse human RBCs in the presence of exogenous complement or induce the direct sensitization of RBCs with human IgG or complement. CONCLUSION: These analyses indicate that HbOC-201 administration elicits IgG antibodies in humans that react with bovine and HuHb, but do not cause hemolysis in vitro.
Authors: Colin D R Borland; Helen Dunningham; Fiona Bottrill; Alain Vuylsteke; Cuneyt Yilmaz; D Merrill Dane; Connie C W Hsia Journal: J Appl Physiol (1985) Date: 2010-02-11