Detection and quantification of different aminothiols forms (reduced and total) in biological fluids are important for the investigation of oxidative stress-related diseases and cell homeostasis study. The aim of this study was to optimize a HPLC method in order to determine both reduced and total thiol forms in red blood cells (RBC) at low temperature without washing erythrocytes. Analytical recoveries for total and reduced thiols were 91.6-98.5 and 94.9-98.2% respectively. The relative standard deviations intra-assay for total and reduced thiols were 1.14-3.64 and 0.83-2.3% respectively and the relative standard deviations inter-assay for total and reduced thiols were 1.12-3.54 and 0.84-2.03%, respectively. This method allows specific analysis of the aminothiol state inside the RBC, as a model of intracellular metabolism functioning. © 2013 John Wiley & Sons, Ltd.
Determination of different forms of aminothiols in red blood cells without washing erythrocytes
Dellanoce Cinzia;Pratali Lorenza;
2014
Abstract
Detection and quantification of different aminothiols forms (reduced and total) in biological fluids are important for the investigation of oxidative stress-related diseases and cell homeostasis study. The aim of this study was to optimize a HPLC method in order to determine both reduced and total thiol forms in red blood cells (RBC) at low temperature without washing erythrocytes. Analytical recoveries for total and reduced thiols were 91.6-98.5 and 94.9-98.2% respectively. The relative standard deviations intra-assay for total and reduced thiols were 1.14-3.64 and 0.83-2.3% respectively and the relative standard deviations inter-assay for total and reduced thiols were 1.12-3.54 and 0.84-2.03%, respectively. This method allows specific analysis of the aminothiol state inside the RBC, as a model of intracellular metabolism functioning. © 2013 John Wiley & Sons, Ltd.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.