Influence of molecular structure on O₂-binding properties and blood circulation of hemoglobin?albumin clusters

A hemoglobin wrapped covalently by three human serum albumins, a Hb-HAS₃ cluster, is an artificial O₂-carrier with the potential to function as a red blood cell substitute. This paper describes the synthesis and O₂-binding properties of new hemoglobin?albumin clusters(i) bearing four HSA units at the periphery(Hb-HSA₄, large-size variant) and(ii) containing an intramolecularly crosslinked Hb in the center(XLHb-HSA₃, high O₂-affinity variant). Dynamic light scattering measurements revealed that the Hb-HSA₄ diameter is greater than that of either Hb-HSA₃ or XLHb-HSA₃. The XLHb-HSA₃ showed moderately high O₂-affinity compared to the others because of the chemical linkage between the Cys-93(β) residues in Hb. Furthermore, the blood circulation behavior of ¹²⁵I-labeled clusters was investigated by assay of blood retention and tissue distribution after intravenous administration into anesthetized rats. The XLHb-HSA₃ was metabolized faster than Hb-HSA₃ and Hb-HSA₄. Results suggest that the molecular structure of the protein cluster is a factor that can influence in vivo circulation behavior.