Serum albumin is the principal transporter of fatty acids that are otherwise insoluble in circulating plasma. While the crystal structure of human serum albumin (HSA) as well as its binding with fatty acids has been characterized, the three dimensional structure of bovine serum albumin (BSA) has not been determined although both albumins share 76% sequence homology. In this study we used mass spectrometry coupled with chemical cross-linking, to probe the tertiary structure of BSA. BSA was modified with lysine specific cross-linkers, bis(sulfosuccinimidyl) suberate (BS 3 ), disuccinimidyl suberate (DSS) or disuccinimidyl glutarate (DSG), digested with trypsin and analyzed by tandem mass spectrometry. With O-18 labeling during the digestion, through-space cross-linked peptides were readily identified in mass spectra by a characteristic 8 Da shift. From the cross-linked peptides identified in this study, we found that 12 pairs of lysine residues were separated within 20 Å, while 5 pairs were spaced between 20 and 24 Å. The spatial distance constraints generated from five K-K pairs in BSA were consistent with the corresponding distance obtained from the crystal structure of HSA, although only six equivalent K-K pairs could be compared. According to our data, the distance between K235 of IIA and K374 of IIB domain in BSA was farther by 7-11 Å than that expected from the crystal structure of HSA, suggesting structural differences between BSA and HSA in this region. The distance constraints obtained for lysine residues using various cross-linkers should be valuable in assisting the determination of the 3-D structure of
The synthesis of 11 peptides, ranging in composition from 9 to 17 amino acid residues, by solid-phase methodology was accomplished with the purpose of studying how the amphiphilic and hydrophobic character, the size of the molecule, and the charge distribution modulate the antibacterial activity. It was found that peptides composed of 16 and 17 amino acid residues, with high hydrophobic (mainly due to Trp or Phe) and hydrophilic (due to Lys) character distributed along opposite amphiphilic faces, showed considerable antibacterial activity against clinically isolated bacteria together with Gram positive and Gram negative ATCC bacterial strains. However, the hemolytic capacity of the peptides was also significant. Decreasing the hydrophobic character of the molecule by replacing Trp or Phe with Leu residues while maintaining the basic contribution of Lys drastically reduced the hemolytic activity and only slightly decreased the bioactivity. Peptides composed of 9-10 amino acid residues with high hydrophobic and basic nature possess antibacterial activity but, in general, are less active than the larger counterpart peptides. By replacing all Trp residues of a short peptide by Leu residues, the activity was considerably reduced. Circular dichroism studies and antibacterial assays showed that shorter peptides with very low helical content, and thus deprived of amphiphilic character, still have appreciable bioactivity. This observation, coupled with the fact that due to their small size they cannot span the bacterial outer lipid bilayer, may suggest different mechanisms of action for long-chain vis-a-vis short-chain peptides.
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