In this study, we have followed up on previous liquid chromatography (LC) multiple reaction monitoring (MRM) mass spectrometry (MS) approaches for measurement of apolipoprotein (apo) A-I and apo... Show moreIn this study, we have followed up on previous liquid chromatography (LC) multiple reaction monitoring (MRM) mass spectrometry (MS) approaches for measurement of apolipoprotein (apo) A-I and apo B100 in serum aiming for implementation of a multiplexed assay in a clinical chemistry laboratory with full metrological traceability. Signature peptides were selected and detected by dynamic MRM, and stable isotope labeled (SIL)-peptides were used as internal standards. Five apo A-I and four apo B100 peptides were measured in serum digests with linearity (R(2)>0.992) in the physiologically relevant concentration ranges. Linearity with regard to protein concentration was ascertained at five concentration levels (R(2)>0.926 and R(2)>0.965, for the apo A-I and apo B100 peptides, respectively). Three native value-assigned sera were used as external calibrators for further method verification. Imprecision values on sample preparation and LC-MS/MS acquisition were below the established minimal specifications for apo A-I and apo B100 (5.0% and 5.3%, respectively). Correlation of LC-MS/MS results with immunoturbidimetric assay results, for normo- and hypertriglyceridemic samples, showed R(2)>0.944 for apo A-I and R(2)>0.964 for apo B100. This LC-MS/MS method has potential for clinical application in normo- and dyslipidemic patients.\nBIOLOGICAL SIGNIFICANCE\nMeasurement of apo A-I and apo B100 may offer an alternative to high and low density lipoprotein cholesterol (HDL-c and LDL-c) methods for cardiovascular disease risk assessment in dyslipidemic patients [1]. An LC-MS/MS method for apo A-I and apo B100 has the advantage of antibody independent and specific detection of protein signature peptides. The introduction of an LC-MS/MS method for apo A-I and apo B100 can serve as an example for many existing and newly developed (multiplex) biomarker methods in quantitative clinical chemistry proteomics (qCCP). Such LC-MS/MS methods should meet basic clinical chemistry principles with regard to test evaluation [2]. Criteria for imprecision should be pre-defined, e.g., based on biological variation. The use of commutable and traceable serum-based calibrators will improve inter-laboratory reproducibility of LC-MS/MS methods and may contribute to a more rapid transition of biomarker discovery to clinical utility with benefit for the patient treatment and improvement of general health care. Show less
Broek, I. van den; Smit, N.P.M.; Romijn, F.P.H.T.M.; Laarse, A. van der; Deelder, A.M.; Burgt, Y.E.M. van der; Cobbaert, C.M. 2013
Biotechnology increasingly delivers highly promising protein-based biopharmaceutical candidates to the drug development funnel. For successful biopharmaceutical drug development, reliable... Show moreBiotechnology increasingly delivers highly promising protein-based biopharmaceutical candidates to the drug development funnel. For successful biopharmaceutical drug development, reliable bioanalytical methods enabling quantification of drugs in biological fluids (plasma, urine, tissue, etc.) are required to generate toxicokinetic (TK), pharmacokinetic (PK), and bioavailability data. A clear observable trend is that liquid chromatography coupled to (tandem) mass spectrometry (LC–MS(/MS)) is more and more replacing ligand binding assays (LBA) for the bioanalytical determination of protein-based biopharmaceuticals in biological matrices, mainly due to improved selectivity and linear dynamic ranges. Practically all MS-based quantification methods for protein-based biopharmaceuticals traditionally rely on (targeted) proteomic techniques and include “seven critical factors”: (1) internal standardization, (2) protein purification, (3) enzymatic digestion, (4) selection of signature peptide(s), (5) peptide purification, (6) liquid chromatographic separation and (7) mass spectrometric detection. For this purpose, the variety of applied strategies for all “seven critical factors” in current literature on MS-based protein quantification have been critically reviewed and evaluated. Special attention is paid to the quantification of therapeutic monoclonal antibodies (mAbs) in serum and plasma since this is a very promising and rapidly expanding group of biopharmaceuticals. Additionally, the review aims to predict the impact of strategies moving away from traditional protein cleavage isotope dilution mass spectrometry (PC-IDMS) toward approaches that are more dedicated to bioanalysis. Show less