Wydział Chemii

Monika Kijewska

Francesca Nuti

Magdalena Wierzbicka

Mateusz Waliczek

Patrycja Ledwoń

Agnieszka Staśkiewicz

Feliciana Real-Fernandez

Giuseppina Sabatino

Paolo Rovero

Piotr Stefanowicz

Zbigniew Szewczuk

Anna Maria Papini

2020

Molecules

25

755/1-755/15

10.3390/molecules25030755

Naukowa

Angielski

Artykuł

We report herein a novel ChemMatrix^® Rink resin functionalised with two phenylboronate (PhB) moieties linked on the N-α and N-ε amino functions of a lysine residue to specifically capture deoxyfructosylated peptides, compared to differently glycosylated peptides in complex mixtures. The new PhB-Lys(PhB)-ChemMatrix^® Rink resin allows for exploitation of the previously demonstrated ability of cis diols to form phenylboronic esters. The optimised capturing and cleavage procedure from the novel functionalised resin showed that only the peptides containing deoxyfructosyl-lysine moieties can be efficiently and specifically detected by HR-MS and MS/MS experiments. We also investigated the high-selective affinity to deoxyfructosylated peptides in an ad hoc mixture containing unique synthetic non-modified peptides and in the hydrolysates of human and bovine serum albumin as complex peptide mixtures. We demonstrated that the deoxyfructopyranosyl moiety on lysine residues is crucial in the capturing reaction. Therefore, the novel specifically-designed PhB-Lys(PhB)-ChemMatrix^® Rink resin, which has the highest affinity to deoxyfructosylated peptides, is a candidate to quantitatively separate early glycation peptides from complex mixtures to investigate their role in diabetes complications in the clinics.

phenylboronate, affinity chromatography, ChemMatrix® Rink resin, Nε-deoxyfructosyl-lysine, LC-MS analysis

CC-BY

http://dx.doi.org/10.3390/molecules25030755

http://www.mdpi.com/journal/metals