BACKGROUND: We previously hypothesized that the N-terminus of human serum albumin (HSA) is altered during ischemic events, thus establishing the foundation for the cobalt-HSA binding assay phenomenon. In this investigation, we attempt to clarify the mode of action of the cobalt-HSA binding assay by direct observations of cobalt binding to HSA. METHODS: High pressure liquid chromatography coupled to positive electrospray ionization mass spectrometry (HPLC/MS) was used to study cobalt binding to HSA in the plasma of patients with and without evidence of myocardial ischemia. RESULTS: Strong binding of cobalt to the N-terminus of HSA occurs at pH>7.0. No differences in cobalt binding to the N-terminus of HSA are observed in ischemic versus non-ischemic patients' plasma despite differences in the cobalt-HSA binding assay. Plasma free cysteine/cystine ratio appears to play a role in the quantitative response of the cobalt-HSA binding assay. CONCLUSIONS: The main determinants of the cobalt-HSA binding assay mechanism of action include but are not limited to: the proportion of intact N-terminus of HSA, HSA concentration, plasma cysteine/cystine ratio, plasma pH, and the state of oxidation of cys34 of HSA. Assay improvements that consider and take these factors into account could lead to an improved cobalt-HSA binding assay with greater clinical utility.
BACKGROUND: We previously hypothesized that the N-terminus of humanserum albumin (HSA) is altered during ischemic events, thus establishing the foundation for the cobalt-HSA binding assay phenomenon. In this investigation, we attempt to clarify the mode of action of the cobalt-HSA binding assay by direct observations of cobalt binding to HSA. METHODS: High pressure liquid chromatography coupled to positive electrospray ionization mass spectrometry (HPLC/MS) was used to study cobalt binding to HSA in the plasma of patients with and without evidence of myocardial ischemia. RESULTS: Strong binding of cobalt to the N-terminus of HSA occurs at pH>7.0. No differences in cobalt binding to the N-terminus of HSA are observed in ischemic versus non-ischemicpatients' plasma despite differences in the cobalt-HSA binding assay. Plasma free cysteine/cystine ratio appears to play a role in the quantitative response of the cobalt-HSA binding assay. CONCLUSIONS: The main determinants of the cobalt-HSA binding assay mechanism of action include but are not limited to: the proportion of intact N-terminus of HSA, HSA concentration, plasma cysteine/cystine ratio, plasma pH, and the state of oxidation of cys34 of HSA. Assay improvements that consider and take these factors into account could lead to an improved cobalt-HSA binding assay with greater clinical utility.
Authors: James Chek; Jaroslav Dusek; Josef Stasek; Jan Vojacek; Josef Bis; Martina Ulrychova; Milos Tichy; Tomas Tomko; Josef Bukac Journal: Heart Vessels Date: 2011-01-26 Impact factor: 2.037
Authors: Lucía Turell; Horacio Botti; Lucía Bonilla; María José Torres; Francisco Schopfer; Bruce A Freeman; Larissa Armas; Alejandro Ricciardi; Beatriz Alvarez; Rafael Radi Journal: J Chromatogr B Analyt Technol Biomed Life Sci Date: 2013-11-20 Impact factor: 3.205
Authors: James P C Coverdale; Kondwani G H Katundu; Amélie I S Sobczak; Swati Arya; Claudia A Blindauer; Alan J Stewart Journal: Prostaglandins Leukot Essent Fatty Acids Date: 2018-07-20 Impact factor: 4.006