Semi-synthetic human albumin isoforms: Production, structure, binding capacities and influence on a routine laboratory test

Human Serum Albumin (HSA) undergoes Post-Translational-Modifications (PTMs) leading to isoforms affecting its oncotic and non-oncotic properties. HSA is comprised of several isoforms whose abundance may vary with pathologies such as diabetes, kidney and liver diseases. Studying their impact separate...

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Veröffentlicht in:	International journal of biological macromolecules 2023-10, Vol.250, p.126239-126239, Article 126239
Hauptverfasser:	Lakis, Roy, Sauvage, François-Ludovic, Pinault, Emilie, Marquet, Pierre, Saint-Marcoux, Franck, El Balkhi, Souleiman
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Sprache:	eng
Schlagworte:	Bottom-up HSA isoforms Human serum albumin ICP-MS Post-translational-modification Top-down
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creator	Lakis, Roy Sauvage, François-Ludovic Pinault, Emilie Marquet, Pierre Saint-Marcoux, Franck El Balkhi, Souleiman
description	Human Serum Albumin (HSA) undergoes Post-Translational-Modifications (PTMs) leading to isoforms affecting its oncotic and non-oncotic properties. HSA is comprised of several isoforms whose abundance may vary with pathologies such as diabetes, kidney and liver diseases. Studying their impact separately may help to understand their sources and potential pathogenicity and further their evaluation as biomarkers. The present study examined semi-synthetic HSA isoforms to investigate independently their structure by means of advanced mass spectrometry techniques (LC-TOF-MS and ICP-MS), influence on the HSA binding/antioxidant activities using a binding capacity test, and potential impact on albumin quantification by a routine immunoturbidimetric assay. Applying different chemical reactions to a commercial HSA solution, we obtained different solutions enriched up to 53 % of native HSA, 78 % of acetylated HSA, 71 % of cysteinylated HSA, 94 % of oxidized HSA, 58 % of nitrosylated HSA and 96 % of glycated HSA, respectively. Moreover, the semi-synthetic isoforms showed differently altered binding capacities for a panel of ligands (Cu, Cd, Au, Ds and L-T4). Furthermore, immunoturbidimetry was found to be insensitive to the presence and abundance of the different isoforms. The fully characterized semi synthetic HSA isoforms obtained should be useful to further investigate their pathogenicity and potential roles as biomarkers. •A comprehensive analysis of enriched HSA isoform solutions is presented.•HSA undergoes chemical modifications yielding isoforms in pathological conditions.•We produced HSA isoforms solutions, necessary to investigate their pathogenicity.•We studied the structural impact on HSA quantification and non-oncotic activities.
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HSA is comprised of several isoforms whose abundance may vary with pathologies such as diabetes, kidney and liver diseases. Studying their impact separately may help to understand their sources and potential pathogenicity and further their evaluation as biomarkers. The present study examined semi-synthetic HSA isoforms to investigate independently their structure by means of advanced mass spectrometry techniques (LC-TOF-MS and ICP-MS), influence on the HSA binding/antioxidant activities using a binding capacity test, and potential impact on albumin quantification by a routine immunoturbidimetric assay. Applying different chemical reactions to a commercial HSA solution, we obtained different solutions enriched up to 53 % of native HSA, 78 % of acetylated HSA, 71 % of cysteinylated HSA, 94 % of oxidized HSA, 58 % of nitrosylated HSA and 96 % of glycated HSA, respectively. 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The fully characterized semi synthetic HSA isoforms obtained should be useful to further investigate their pathogenicity and potential roles as biomarkers. •A comprehensive analysis of enriched HSA isoform solutions is presented.•HSA undergoes chemical modifications yielding isoforms in pathological conditions.•We produced HSA isoforms solutions, necessary to investigate their pathogenicity.•We studied the structural impact on HSA quantification and non-oncotic activities.</description><identifier>ISSN: 0141-8130</identifier><identifier>EISSN: 1879-0003</identifier><identifier>DOI: 10.1016/j.ijbiomac.2023.126239</identifier><identifier>PMID: 37572814</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Bottom-up ; HSA isoforms ; Human serum albumin ; ICP-MS ; Post-translational-modification ; Top-down</subject><ispartof>International journal of biological macromolecules, 2023-10, Vol.250, p.126239-126239, Article 126239</ispartof><rights>2023 Elsevier B.V.</rights><rights>Copyright © 2023 Elsevier B.V. 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Moreover, the semi-synthetic isoforms showed differently altered binding capacities for a panel of ligands (Cu, Cd, Au, Ds and L-T4). Furthermore, immunoturbidimetry was found to be insensitive to the presence and abundance of the different isoforms. 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subjects	Bottom-up HSA isoforms Human serum albumin ICP-MS Post-translational-modification Top-down
title	Semi-synthetic human albumin isoforms: Production, structure, binding capacities and influence on a routine laboratory test
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