Optical properties of Cu(II) complexes with heparin and related glycosaminoglycans

Abstract

Absorption and circular dichroism measurements have been carried out to obtain information regarding the stability and the nature of complexes between Cu(II) and heparin, and between Cu(II) and related glycosaminoglycans. In the presence of Cu(II), all glycosaminoglycans, except keratan sulfate, show a characteristic absorption band near 237 nm, which we assign to charge-transfer bands involving ligands to metal ion. From the absorbance values, the formation constants of Cu(II)-heparin and Cu(II)-(itN)-desulfated heparin have been determined to be approximately 1 × 10 4 and 2 × 10 2 mol −1, respectively. The large difference in the stability constant values is attributed to the difference in the charge density of the polymers, and to involvement of more than one ligand in the case of heparin. The CD characteristics of the Cu(II)-heparin complex suggest that both carboxyl and sulfamino groups are involved as ligands. The appearance of extrinsic CD bands in heparin, heparan sulfate, dermatan sulfate, and N-desulfated heparin at pH > 5 is ascribed to asymmetry of chelate rings. Absence of CD change in chondroitin sulfate and N-desulfated heparin (pH < 5) in the presence of Cu(II) suggests that only the carboxyl group is involved in those complexes. The differences either in iduronic acid conformation (C-1 vs. 1-C) or in intersaccharide linkages between dermatan sulfate and heparin (or heparan sulfate) are revealed in the difference CD spectra between the complexes and the polymers. The change in the intrinsic Cotton effect on complex formation is accounted for as a change in spatial orientation of the ligand groups rather than as a major conformational change of the polymers.