Abstract
In an attempt to systematically dissect the ligand binding properties of human serum albumin (HSA), the gene segments encoding each of its three domains were defined based on their conserved homologous structural motifs and separately cloned into a secretion vector for Pichia pastoris. We were able to establish a generally applicable purification protocol based on Cibacron Blue affinity chromatography, suggesting that each of the three domains carries a binding site specific for this ligand. Proteins were characterized by SDS-polyacrylamide gel electrophoresis, isoelectric focusing, gel filtration, N-terminal sequencing, and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry, as well as near- and far-UV CD. In addition to the affinity chromatography ligand Cibacron Blue, binding properties toward hemin, warfarin, and diazepam, each of which represents a standard ligand for HSA, respectively, were investigated by the measurement of induced circular dichroism. Clear experimental evidence is provided here for the location of the primary hemin binding site to be on domain I of HSA, and for the primary diazepam binding site to be on domain III. Further, secondary binding sites were found for hemin to be located on domains II and III, and for diazepam on domain I. The warfarin binding site was located primarily on domain II, while on domain I, a secondary binding site and/or parts of the primary binding site were found.
Highlights
In an attempt to systematically dissect the ligand binding properties of human serum albumin (HSA), the gene segments encoding each of its three domains were defined based on their conserved homologous structural motifs and separately cloned into a secretion vector for Pichia pastoris
Clear experimental evidence is provided here for the location of the primary hemin binding site to be on domain I of HSA, and for the primary diazepam binding site to be on domain III
Human serum albumin (HSA)1 is a globular protein of 585 amino acids, which accounts for about 60% of the total protein in blood serum
Summary
From the ‡Institute of Applied Microbiology, University of Agricultural Sciences, Muthgasse 18, A-1190 Vienna, Austria and §New Century Pharmaceuticals Inc., Huntsville, Alabama 35824. Details of the molecular interactions of ligand binding to albumin are known for only a small number of cases [1] Insight gained from such studies shows promise in improving the design of many pharmaceuticals and diagnostic agents. All three domains of HSA were produced by molecular cloning in a completely predetermined manner, based solely on the natural boundaries of the domains. This definite advance over the previous studies using either albumin fragments produced by proteolytic or chemical cleavage or incomplete sets of recombinant domains is expected to allow an in-depth study of the folding of the domains and of
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