Abstract
A gas chromatography-mass spectrometry (GC–MS) method was developed and validated in relevant concentration ranges for the simultaneous measurement of l-lysine (Lys, L) and its Nε- and Nα-methylated (M), Nε- and Nα-acetylated (Ac), Nε-carboxymethylated (CM) and Nε-carboxyethylated (CE) metabolites in human urine. Analyzed Lys metabolites were the post-translational modification (PTM) products Nε-mono-, di- and trimethyllsine, Nε-MML, Nε-DML, Nε-TML, respectively, Nα-ML, Nε-AcL, Nα-AcL, and its advanced glycation end-products (AGEs) Nε-CML, Nε-CM-[2,4,4-2H3]Lys (d3-CML), Nε-CEL and furosine. AGEs of arginine (Arg) and cysteine (Cys) were also analyzed. De novo synthesized trideutero-methyl esters (R-COOCD3) from unlabelled amino acids and derivatives were used as internal standards. Native urine samples (10 µL aliquots) were evaporated to dryness under a stream of nitrogen. Analytes were esterified using 2 M HCl in methanol (60 min, 80 °C) and subsequently amidated by pentafluoropropionic anhydride in ethyl acetate (30 min, 65 °C). The generated methyl ester-pentafluoropropionyl (Me-PFP) derivatives were reconstituted in borate buffer and extracted immediately with toluene. GC–MS analyses were performed by split-less injection of 1-µL aliquots, oven-programmed separation and negative-ion chemical ionization (NICI). Mass spectra were generated in the scan mode (range, m/z 50–1000). Quantification was performed in the selected-ion monitoring (SIM) mode using a dwell time of 50 or 100 ms for each ion. The GC–MS method was suitable for the measurement of Lys and all of its metabolites, except for the quaternary ammonium cation Nε-TML. The Me-PFP derivatives of Lys, Arg and Cys and its metabolites eluted in the retention time window of 9 to 14 min. The derivatization of Nε-CML, d3-CML and Nε-CEL was accompanied by partial Nε-decarboxylation and formation of the Me-PFP Lys derivative. The lowest derivatization yield was observed for Nε-DML, indicating a major role of the Nε-DML group in Lys derivatization. The GC–MS method enables precise (relative standard deviation, RSD < 20%) and accurate (bias, < ± 20%) simultaneous measurement of 33 analytes in human urine in relevant concentration ranges. We used the method to measure the urinary excretion rates of Lys and its PTM metabolites and AGEs in healthy black (n = 39) and white (n = 41) boys of the Arterial Stiffness in Offspring Study (ASOS). No remarkable differences were found indicating no ethnic-related differences in PTM metabolites and AGEs except for Nε-monomethyllysine and S-(2-carboxymethylcysteine).
Highlights
Proteinogenic amino acid residues undergo multiple posttranslational modifications (PTM) including glycation
Derivatization of amino acids (AA) and their metabolites first with 2 M HCl/CH3OH and with PFPA/ethyl acetate (EA) yields the methyl ester (Me) N-pentafluoropropionyl (PFP) derivatives (d0Me)m-AA-(PFP)n, where m is the number of esterified carboxyl groups and n is the number of the PFP-acylated amine groups
The general formula for the amino acids derivatives prepared with 2 M HCl/CD3OD and subsequently with PFPA/EA is (d3Me)m-AA-(PFP)n
Summary
Proteinogenic amino acid residues undergo multiple posttranslational modifications (PTM) including glycation. Well-investigated PTM include the methylation of the terminal ε-amine (Nε) group of l-lysine and the terminal guanidine (NG) group of l-arginine (Fig. 1). These reactions are CE carboxyethyl, PKMT protein-lysine methyltransferase, PRMT protein-arginine methyltransferase, SAM S-adenosylmethionine, n number of methyl groups, a asymmetric, s symmetric. Catalyzed by protein-lysine methyl transferases (PKMT, EC 2.1.1.43) and protein-arginine methyl transferases (PRMT, EC 2.1.1.125), respectively. Both enzyme families use S-adenosylmethionine (SAM) as the common methyl group (Me) donor. The LMM advanced glycation end-products (AGEs) and methylated amino acids circulate in the blood and are excreted in the urine in their native forms or as metabolites
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