Abstract
Free and protein-bound forms of early and advanced glycation-induced lysine (Lys) modifications were quantified in dairy products by LC–MS/MS using a stable isotope dilution assay. The glycation profiles for N ɛ -fructoselysine (FL), N ɛ -carboxymethyllysine (CML) and pyrraline (Pyr) were monitored in raw and processed cow milk to investigate whether free glycation products could serve as fast and simple markers to assess the extent of protein glycation in dairy products. In all milk samples, the fraction of free glycation adducts was predominantly composed of advanced modifications, e.g. 8.34 ± 3.81 nmol CML per μmol of free Lys (Lys free) and 81.5 ± 87.8 nmol Pyr μmol −1 Lys free −1 vs. 3.72 ± 1.29 nmol FL μmol −1 Lys free −1. In contrast, the protein-bound early glycation product FL considerably outweighed the content of CML and Pyr in milk proteins of raw and processed cow milk, whereas severely heat treated milk products, e.g. condensed milk, contained a higher amount of protein-bound advanced glycation adducts. Typical values recorded for milk samples processed under mild conditions were 0.47 ± 0.08 nmol FL μmol −1 of protein-bound Lys (Lys p-b), 0.04 ± 0.03 nmol CML μmol −1 Lys p-b −1 and 0.06 ± 0.02 nmol Pyr μmol −1 Lys p-b −1. It was particularly noticeable, however, that mild heat treatment of raw milk, i.e. pasteurization and UHT treatment, did not significantly increase the amount of both free and protein-bound Lys modifications. In conclusion, the profiles of free and protein-bound glycation-induced Lys modifications were found to be different and a screening of free glycation adducts does, therefore, not allow for a conclusion about the protein glycation status of dairy products.
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