Bis[2-(4-carboxyphenoxy)carbonylethyl]phosphinic acid (BCCEP): a novel affinity reagent for the beta-cleft modification of human hemoglobin

Bis[2-(3-carboxyphenoxy)carbonylethyl]phosphinic acid (m-BCCEP): a novel affinity cross-linking reagent for the beta-cleft modification of human hemoglobin

The design and synthesis of bis[2-(3-carboxyphenoxy)carbonylethyl]phosphinic acid (m-BCCEP, 1) as a site-directed affinity reagent for cross-linking human hemoglobin have been reported as part of our long-term goal to generate artificial blood for emergency transfusions. Molecular modeling techniques were used to design the reagent, employing crystal coordinates of human hemoglobin A(0) imported from the Protein Data Bank. It was synthesized in four steps commencing from 3-hydroxybenzoic acid. The reagent 1 was converted to its trisodium salt to allow effective cross-linking in an aqueous medium. The reagent 1, as its trisodium salt, was found to specifically cross-link stroma-free human hemoglobin A(0) in the beta-cleft under oxygenated reaction conditions at neutral pH. The SDS-PAGE analyses of the modified hemoglobin pointed to the molecular mass range of 32 kDa as anticipated. The HPLC analyses of the product suggested that the cross-link had formed between the beta(1)-beta(2) subunits. Molecular dynamics simulation studies on the reagent-HbA(0) complex suggested that the predominant amino acid residues involved in the cross-linking are N-terminus Val-1 or Lys-82 on one of the beta-subunits and Lys-144 on the other. These predictions were borne out by MALDI-TOF MS analyses data of the peptide fragments obtained from tryptic digestion of the cross-linked product. The data also suggested the presence of a minor cross-link between Val-1 and Lys-82 on the opposing subunits. The oxygen equilibrium measurements of the m-BCCEP-modified hemoglobin product at 37 degrees C showed oxygen affinity (P(50) = 25.8 Torr) comparable to that of the natural whole blood (P(50) = 27.0 Torr) and significantly lower than that of stroma-free hemoglobin (P(50) = 14.19 Torr) assayed under identical conditions. The measured Hill coefficient value of 1.91 of the m-BCCEP-modified Hb product points to the reasonable retainment of oxygen-binding cooperativity after the cross-link formation.

A Novel Site-Directed Affinity Reagent for Cross-Linking Human Hemoglobin: Bis[2-(4-phosphonooxyphenoxy)carbonylethyl]phosphinic Acid

Bis[2-(4-phosphonooxyphenoxy)carbonylethyl]phosphinc acid (BPPCEP) was prepared and evaluated as a site-directed affinity reagent for cross-linking human hemoglobin. It was synthesized in four steps starting from 4-benzyloxyphenol and was converted to its pentasodium salt so as to afford efficient cross-linking in an aqueous medium. The reagent was found to specifically cross-link human hemoglobin A(0) in the beta-cleft chains under oxygenated reaction conditions at neutral pH. The amino acid residues involved in the cross-linking were determined by mass spectral analyses of tryptic digest fragments of cross-linked hemoglobin, employing a MALDI-TOF mass spectrometer. The MS analyses suggested that the most likely amino acids involved in the cross-links are Val-1 or Lys-82 present on one of the beta subunits and Lys-82 or Lys-144 on the other. Molecular modeling studies performed on the reagent-HbA(0) complex corroborated the conclusions reached by MALDI-MS analyses. The oxygen equilibrium measurements of the three major BPPCEP-cross-linked Hb products, isolated and purified by preparative cation exchange chromatography, exhibited oxygen affinity (P(50)) values of 14.5, 12.1, and 15.5 Torr as compared with the P(50) of 13.1 Torr for cell-free hemoglobin. The oxygen-binding cooperativity of the modified products, as determined by the Hill coefficient generated from the Hill plots of the respective P(50) values, coupled with the absence of sigmoidal shape of the O(2) equilibrium curves, was considerably lower than that of the native hemoglobin.