Accurate quantification of impurities in pure peptide material - angiotensin I: Comparison of calibration requirements and method performance characteristics of liquid chromatography coupled to hybrid tandem mass spectrometry and linear ion trap high-resolution mass spectrometry.

RATIONALE: The prohormone angiotensin I (ANG I) [amino acid sequence: DRVYIHPFHL] and other structurally related peptide hormones play an essential role in the regulation of the water and electrolyte balance in the human body as well as blood pressure. ANG I is a biomarker for hypertension and diabetes. Therefore, well-characterized pure reference materials and comparable and SI-traceable analytical characterization methods are required to establish reference measurement systems (RMS) for laboratory medicine. METHODS: Two analytical characterization methods based on liquid chromatography/mass spectrometry (LC/MS) systems with electrospray ionization have been developed and validated in-house. Both high-resolution MS (hrMS) and hybrid-tandem MS/MS were used for the identification and quantification of the major structurally related peptide impurities of ANG I. The impurities were quantified by use of external calibrations with original impurity standards. Mass fraction impurity values and corresponding expanded measurement uncertainties were calculated. RESULTS: Five structurally related degradation products were detected as major impurities in a 'pure' ANG I material. The peptides ANG (2-10) [RVYIHPFHL], ANG II [DRVYIHPF] and three ANG I isomers [DRVYLHPFHL, DRVYIHPFHI and DRVYLHPFHI] were identified and corresponding mass fraction values calculated that range from 0.66 to 4.86 mg/g. CONCLUSIONS: The mass fraction values for the major related peptide impurities in the ANG I material obtained with both LC/hrMS and LC/MS/MS systems are in excellent agreement. This study emphasizes the importance of mass spectrometric techniques for application to mass balance approaches for mass fraction value and uncertainty assignment of impurities in 'pure' substance reference materials for peptides.

Plasma renin activity by LC-MS/MS: development of a prototypical clinical assay reveals a subpopulation of human plasma samples with substantial peptidase activity.

BACKGROUND: For management and treatment of secondary hypertension, plasma renin activity (PRA) assay is considered an essential diagnostic tool. We developed a liquid chromatography-tandem mass spectrometry (LC-MS/MS)-based approach to PRA offering improvements in laboratory workflow and throughput. During development, we observed a substantial number of clinical samples that have strong degradation activity toward angiotensin (Ang) I during generation. A preliminary characterization of this degradation activity was performed, and we provide here a method by which this degradation can be monitored via the addition of an isotope-labeled degradation standard. METHODS: Automated online sample extraction coupled with HPLC was used to isolate Ang I and internal standard from plasma. The effluent from the analytical column was directed to a triple quadrupole MS operated in selected reaction monitoring mode, monitoring the a(5) and b(5) product ions from the [M+3H](+3) precursors. Routine analysis could be achieved with as little as 150 µL plasma. RESULTS: We identified both C-terminal and N-terminal degradation products of Ang I using isotope-labeled peptides as controls and substrates. In 2%-5% of patient samples, the degradation essentially eliminated any Ang I produced during generation. CONCLUSIONS: Our method requires reduced sample handling when compared with an RIA and eliminates the need for extended generation times for samples with low renin activity. Degradation of Ang I during generation appears to be a confounding variable in the interpretation of results from some clinical samples. Samples with profound degradation activity can be identified using a degradation standard that is added at the start of generation.