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Sample preparation strategies for quantitative analysis of catalase in red blood cells by elemental mass spectrometry

Author:
Mudarra Rubio, AlbertoUniovi authority; Montes Bayón, MaríaUniovi authority; Blanco González, ElisaUniovi authority; Sanz Medel, AlfredoUniovi authority
Subject:

Biochemical, Blood, Maldi, Sample Preparation, Time-Of-Flight Spectrometer.

Publication date:
2010
Publisher version:
http://dx.doi.org/10.1039/c0mt00003e
Citación:
Metallomics, 2(9), p. 638-645 (2010); doi:10.1039/c0mt00003e
Descripción física:
p. 638-645
Abstract:

A sample preparation strategy for the determination of the Fe-containing enzyme catalase (CAT) by Fe specific monitoring in human erythrocytes has been optimized. For this purpose, the combined use of elemental mass spectrometry (via inductively coupled plasma, ICP-MS), molecular mass spectrometry (via MALDI-TOF) and enzymatic activity measurements has been required. The procedure involved haemoglobin precipitation from cell lysate with a solution of ethanol–chloroform and preconcentration of the supernatant by using a Speed-Vac concentrator. Catalase recoveries of about 88 ± 15% could be measured by monitoring the protein enzymatic activity before and after precipitation. Further fractionation of Fe-containing proteins from the preconcentrated extract was achieved by size exclusion chromatography (Superdex 200) with a mobile phase of ammonium acetate (0.05 M, pH 7.4) coupled to ICP-MS (Fe monitoring) and UV/VIS detection (specific absorption of the heme-group at 408 nm). A second dimensional chromatography of the CAT-positive activity fraction was carried out by anion-exchange chromatography (Mono Q 5/50) using for elution a linear gradient of ammonium acetate (0–0.750 M in 15 min). This second step revealed a single Fe-containing species in the chromatogram and permitted the unambiguous characterization of the CAT in such fractions by MALDI-TOF. Column recoveries were evaluated and were quantitative, in terms of Fe bound to protein and CAT activity.

A sample preparation strategy for the determination of the Fe-containing enzyme catalase (CAT) by Fe specific monitoring in human erythrocytes has been optimized. For this purpose, the combined use of elemental mass spectrometry (via inductively coupled plasma, ICP-MS), molecular mass spectrometry (via MALDI-TOF) and enzymatic activity measurements has been required. The procedure involved haemoglobin precipitation from cell lysate with a solution of ethanol–chloroform and preconcentration of the supernatant by using a Speed-Vac concentrator. Catalase recoveries of about 88 ± 15% could be measured by monitoring the protein enzymatic activity before and after precipitation. Further fractionation of Fe-containing proteins from the preconcentrated extract was achieved by size exclusion chromatography (Superdex 200) with a mobile phase of ammonium acetate (0.05 M, pH 7.4) coupled to ICP-MS (Fe monitoring) and UV/VIS detection (specific absorption of the heme-group at 408 nm). A second dimensional chromatography of the CAT-positive activity fraction was carried out by anion-exchange chromatography (Mono Q 5/50) using for elution a linear gradient of ammonium acetate (0–0.750 M in 15 min). This second step revealed a single Fe-containing species in the chromatogram and permitted the unambiguous characterization of the CAT in such fractions by MALDI-TOF. Column recoveries were evaluated and were quantitative, in terms of Fe bound to protein and CAT activity.

URI:
http://hdl.handle.net/10651/9601
ISSN:
1756-5901
Identificador local:

20100433

DOI:
10.1039/c0mt00003e
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