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Unraveling molecular complexity of phosphorylated human cardiac troponin I by top down electron capture dissociation/electron transfer dissociation mass spectrometry

Reputable Mentor II
Reputable Mentor II
Zabrouskov V, Ge Y, Schwartz J, Walker JW.
Mol Cell Proteomics. 2008 Oct;7(10):1838-49.
Cardiac troponin I (cTnI), the inhibitory subunit of the thin filament troponin-tropomyosin regulatory complex, is required for heart muscle relaxation during the cardiac cycle. Expressed only in cardiac muscle, cTnI is widely used in the clinic as a serum biomarker of cardiac injury. In vivo function of cTnI is influenced by phosphorylation and proteolysis; therefore analysis of post-translational modifications of the intact protein should greatly facilitate the understanding of cardiac regulatory mechanisms and may improve cTnI as a disease biomarker. cTnI (24 kDa, pI approximately 9.5) contains twelve serine, eight threonine, and three tyrosine residues, which presents a challenge for unequivocal identification of phosphorylation sites and quantification of positional isomers. In this study, we used top down electron capture dissociation and electron transfer dissociation MS to unravel the molecular complexity of cTnI purified from human heart tissue. High resolution MS spectra of human cTnI revealed a high degree of heterogeneity, corresponding to phosphorylation, acetylation, oxidation, and C-terminal proteolysis. Thirty-six molecular ions of cTnI were detected in a single ESI/FTMS spectrum despite running as a single sharp band on SDS-PAGE. Electron capture dissociation of monophosphorylated cTnI localized two major basal phosphorylation sites: a well known site at Ser(22) and a novel site at Ser(76)/Thr(77), each with partial occupancy (Ser(22): 53%; Ser(76)/Thr(77): 36%). Top down MS(3) analysis of diphosphorylated cTnI revealed occupancy of Ser(23) only in diphosphorylated species consistent with sequential (or ordered) phosphorylation/dephosphorylation of the Ser(22/23) pair. Top down MS of cTnI provides unique opportunities for unraveling its molecular complexity and for quantification of phosphorylated positional isomers thus allowing establishment of the relevance of such modifications to physiological functions and disease status.
Thermo Fisher Scientific, San Jose, California 95134, USA.
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