Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites

Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites

It is well known that various physiological factors such as pH, endogenous substances or post-translational modifications can affect the conformational state of human serum albumin (HSA). In a previous study, we reported that both pH- and long chain fatty acid-induced conformational changes can alte...

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Main Authors: Keishi Yamasaki, Koji Nishi, Makoto Anraku, Kazuaki Taguchi, Toru Maruyama, Masaki Otagiri
Format: Article
Language:English
Published: Elsevier 2018-07-01
Series:Biochemistry and Biophysics Reports
Subjects:
Human serum albumin
Metal-catalyzed oxidation
Binding site
Online Access:http://www.sciencedirect.com/science/article/pii/S2405580818300268
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spelling doaj-74794110fec0470899bbbb0dd6cbf49b2020-11-25T00:11:56ZengElsevierBiochemistry and Biophysics Reports2405-58082018-07-0114C15516010.1016/j.bbrep.2018.05.002Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sitesKeishi Yamasaki0Koji Nishi1Makoto Anraku2Kazuaki Taguchi3Toru Maruyama4Masaki Otagiri5Faculty of Pharmaceutical Sciences, Sojo University, 4-22-1 Ikeda, Nishi-ku, Kumamoto 860-0082, JapanDepartment of Clinical Medicine, Yokohama University of Pharmacy, 601 Matano-cho, Totsuka-ku, Yokohama 245-0066, JapanFaculty of Pharmaceutical Sciences, Sojo University, 4-22-1 Ikeda, Nishi-ku, Kumamoto 860-0082, JapanFaculty of Pharmaceutical Sciences, Sojo University, 4-22-1 Ikeda, Nishi-ku, Kumamoto 860-0082, JapanGraduate School of Pharmaceutical Sciences, Kumamoto University, 5–1 Oe-honmachi, Kumamoto 862-0973, JapanFaculty of Pharmaceutical Sciences, Sojo University, 4-22-1 Ikeda, Nishi-ku, Kumamoto 860-0082, JapanIt is well known that various physiological factors such as pH, endogenous substances or post-translational modifications can affect the conformational state of human serum albumin (HSA). In a previous study, we reported that both pH- and long chain fatty acid-induced conformational changes can alter the interactive binding of ligands to the two principal binding sites of HSA, namely, site I and site II. In the present study, the effect of metal-catalyzed oxidation (MCO) caused by ascorbate/oxygen/trace metals on HSA structure and the interactive binding between dansyl-L-asparagine (DNSA; a site I ligand) and ibuprofen (a site II ligand) at pH 6.5 was investigated. MCO was accompanied by a time-dependent increase in carbonyl content in HSA, suggesting that the HSA was being oxidized. In addition, The MCO of HSA was accompanied by a change in net charge to a more negative charge and a decrease in thermal stability. SDS-PAGE patterns and α-helical contents of the oxidized HSAs were similar to those of native HSA, indicating that the HSA had not been extensively structurally modified by MCO. MCO also caused a selective decrease in ibuprofen binding. In spite of the changes in the HSA structure and ligand that bind to site II, no change in the interactive binding between DNSA and ibuprofen was observed. These data indicated that amino acid residues in site II are preferentially oxidized by MCO, whereas the spatial relationship between sites I and II (e.g. the distance between sites), the flexibility or space of each binding site are not altered. The present findings provide insights into the structural characteristics of oxidized HSA, and drug binding and drug-drug interactions on oxidized HSA.http://www.sciencedirect.com/science/article/pii/S2405580818300268Human serum albuminMetal-catalyzed oxidationBinding site
collection DOAJ
language English
format Article
sources DOAJ
author Keishi Yamasaki
Koji Nishi
Makoto Anraku
Kazuaki Taguchi
Toru Maruyama
Masaki Otagiri
spellingShingle Keishi Yamasaki
Koji Nishi
Makoto Anraku
Kazuaki Taguchi
Toru Maruyama
Masaki Otagiri
Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
Biochemistry and Biophysics Reports
Human serum albumin
Metal-catalyzed oxidation
Binding site
author_facet Keishi Yamasaki
Koji Nishi
Makoto Anraku
Kazuaki Taguchi
Toru Maruyama
Masaki Otagiri
author_sort Keishi Yamasaki
title Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
title_short Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
title_full Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
title_fullStr Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
title_full_unstemmed Metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
title_sort metal-catalyzed oxidation of human serum albumin does not alter the interactive binding to the two principal drug binding sites
publisher Elsevier
series Biochemistry and Biophysics Reports
issn 2405-5808
publishDate 2018-07-01
description It is well known that various physiological factors such as pH, endogenous substances or post-translational modifications can affect the conformational state of human serum albumin (HSA). In a previous study, we reported that both pH- and long chain fatty acid-induced conformational changes can alter the interactive binding of ligands to the two principal binding sites of HSA, namely, site I and site II. In the present study, the effect of metal-catalyzed oxidation (MCO) caused by ascorbate/oxygen/trace metals on HSA structure and the interactive binding between dansyl-L-asparagine (DNSA; a site I ligand) and ibuprofen (a site II ligand) at pH 6.5 was investigated. MCO was accompanied by a time-dependent increase in carbonyl content in HSA, suggesting that the HSA was being oxidized. In addition, The MCO of HSA was accompanied by a change in net charge to a more negative charge and a decrease in thermal stability. SDS-PAGE patterns and α-helical contents of the oxidized HSAs were similar to those of native HSA, indicating that the HSA had not been extensively structurally modified by MCO. MCO also caused a selective decrease in ibuprofen binding. In spite of the changes in the HSA structure and ligand that bind to site II, no change in the interactive binding between DNSA and ibuprofen was observed. These data indicated that amino acid residues in site II are preferentially oxidized by MCO, whereas the spatial relationship between sites I and II (e.g. the distance between sites), the flexibility or space of each binding site are not altered. The present findings provide insights into the structural characteristics of oxidized HSA, and drug binding and drug-drug interactions on oxidized HSA.
topic Human serum albumin
Metal-catalyzed oxidation
Binding site
url http://www.sciencedirect.com/science/article/pii/S2405580818300268
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AT torumaruyama metalcatalyzedoxidationofhumanserumalbumindoesnotaltertheinteractivebindingtothetwoprincipaldrugbindingsites
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