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Horvat, Štefica; Roščić, Maja; Horvat, Jaroslav

doi:10.1023/a:1007022426131

Cited by 15 publications

(11 citation statements)

References 9 publications

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“…As reported earlier, [21][22][23]26 the equilibrium compositions of the Amadori compounds 1-4 show in water and DMSO solution pyranose and furanose forms, the ␤-pyranose tautomer being the most abundant. Quite surprisingly, DMSO solutions of compounds 1-4 contain at equilibrium a relatively high proportion of the acyclic hydrate form (ca.…”

Section: Resultssupporting

confidence: 65%

“…[21][22][23] We found that glycation of leucine-enkephalin at the Nterminal induces changes in the peptide conformation and results in total loss of opioid activity in vitro. 24 These findings are not only of theoretical interest since similar adducts with altered interactions with endogenous opioid receptors can be formed during exposure of enkephalins, or other opioid peptides, to glucose in vivo.…”

Section: Introductionmentioning

confidence: 95%

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Study of degradation pathways of Amadori compounds obtained by glycation of opioid pentapeptide and related smaller fragments: Stability, reactions, and spectroscopic properties

Jakas

Horvat

2003

Biopolymers

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Reactions between biological amines and reducing sugars (the Maillard reaction) are among the most important of the chemical and oxidative changes occurring in biological systems that contribute to the formation of a complex family of rearranged and dehydrated covalent adducts that have been implicated in the pathogenesis of human diseases. In this study, chemistry of the Maillard reactions was studied in four model systems containing fructosamines (Amadori compounds) obtained from the endogenous opioid pentapeptide leucine-enkephalin (Tyr-Gly-Gly-Phe-Leu), leucine-enkephalin methyl ester, structurally related tripeptide (Tyr-Gly-Gly), or from amino acid (Tyr). The degradation of model compounds as well as their ability to develop Maillard fluorescence was investigated under oxidative conditions in methanol and phosphate buffer pH 7.4 at two different temperatures (37 and 70 degrees C). At 37 degrees C, glycated leucine-enkephalin degraded slowly in methanol (t(1/2) approximately 13 days) and phosphate buffer (t(1/2) approximately 9 days), producing a parent peptide compound as a major product throughout a three-week incubation period. Whereas fluorescence slowly increased over time at 37 degrees C, incubations off all studied Amadori compounds at 70 degrees C resulted in a rapid appearance of a brown color and sharp increase in AGE (advanced glycation end products)-associated fluorescence (excitation 320 nm/emmision 420 nm) as well as in distinctly higher amounts of fragmentation products. The obtained data indicated that the shorter the peptide chain the more degradation products were formed. These studies have also helped to identify a new chemical transformation of the peptide backbone in the Maillard reaction that lead to beta-scission of N-terminal tyrosine side chain and p-hydroxybenzaldehyde formation under both aqueous and nonaqueous conditions.

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Section: Resultssupporting

confidence: 65%

Section: Introductionmentioning

confidence: 95%

Study of degradation pathways of Amadori compounds obtained by glycation of opioid pentapeptide and related smaller fragments: Stability, reactions, and spectroscopic properties

Jakas

Horvat

2003

Biopolymers

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“…[26] NMR Spectroscopy: NMR experiments were carried out at a concentration of 6 m in CD 3 CN at 25°C on 400 and 600 MHz Varian Inova spectrometers equipped with 5 mm PFG triple-resonance probes, unless otherwise stated. Assignments of 1 H and 13 C resonances were carried out using standard 2D NMR techniques.…”

Section: Methodsmentioning

confidence: 99%

“…[26,27] Two isomers may be formed in the intramolecular reactions. However, the transformation of 3 into the corresponding imidazolidinone compound took place with complete stereoselectivity, resulting in the formation of (2R)-6 in which the pentitolyl residue and hydroxybenzyl group have a trans arrangement and C2 of the imidazolidinone ring has the R configuration.…”

Section: Introductionmentioning

confidence: 99%

Stereochemical Assignment of Diastereomeric Imidazolidinone‐Ring‐Containing Bicyclic Sugar‐Peptide Adducts: NMR Spectroscopy and Molecular Calculations

et al. 2004

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A combination of NMR spectroscopy and molecular simulations is used to determine trans/cis configurational features of two diastereomeric bicyclic imidazolidinone compounds obtained by intramolecular cyclization of the monosaccharide ester of leucine-enkephalin related to D-glucose. The stereochemical assignment of the five-membered imidazolidinone ring system was performed by consideration of longrange proton-proton coupling observed between protons at C2 and C4 in the COSY spectrum of the major isomer only. A long-range 4 J H,H coupling across the nitrogen atoms is larger in the trans isomer than in the cis. In addition, comparison of these results with the NMR spectroscopic data obtai-

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“…To investigate the early glycation products, in our recent studies we used carbohydrate‐peptide esters in which the sugar moiety ( D ‐glucose, D ‐mannose, or D ‐galactose) is linked through its C‐6 hydroxy group to the C‐terminal carboxy group of the endogenous opioid pentapeptide leucine‐enkephalin (H‐Tyr‐Gly‐Gly‐Phe‐Leu‐OH) as model compounds for the study of the Maillard reaction in vitro 12–14. We found for the first time that, depending on the reaction conditions, in addition to Amadori rearrangement, an alternative pathway for the carbohydrate‐induced modification of peptides is possible, yielding hexose‐related imidazolidinones 13,. 14 These results point to the possibility that, depending on the physiological environment, similar carbohydrate‐related imidazolidinones may also be generated as products of the early stage of the Maillard reaction in vivo .…”

mentioning

confidence: 99%

The early glycation products of the Maillard reaction: mass spectrometric characterization of novel imidazolidinones derived from an opioid pentapeptide and glucose

Roščić

Versluis

Kleinnijenhuis

et al. 2001

Rapid Comm Mass Spectrometry

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Glucose-substituted imidazolidinones related to the endogenous opioid peptide leucine-enkephalin have been investigated using fast atom bombardment tandem mass spectrometry (FAB-MS/MS) and electrospray ionization tandem mass spectrometry (ESI-MS/MS). In addition to Amadori compounds, the studied imidazolidinones represent a novel type of the early glycation products formed in the Maillard reaction. To obtain insight into the fragmentation behavior of these carbohydratepeptide adducts, we also studied synthetic precursors of the glucose-substituted imidazolidinones as well as the corresponding isopropylidene derivatives. The collision-induced dissociation (CID) spectra of [M H] ions of all these imidazolidinones have been compared. Detailed analysis showed that fragmentation of each compound generates two ions at m/z 566 and m/z 598 which are characteristic and undoubtedly confirm the imidazolidinone-type structure. These two significant ions were identified as the M 10 and M 42 modifications of the N-terminus of the parent opioid pentapeptide effected by the carbohydrate moiety. Furthermore, the ion at m/z 178 is identified as the M 42 modification of the immonium ion of the N-terminal amino acid (tyrosine) also effected by the carbohydrate moiety. They can be used as diagnostic ions for imidazolidinone-type compounds in studying the Maillard reaction. Thus, we have demonstrated the utility of FAB-MS/MS and ESI-MS/MS in the structural determination and identification of such novel peptide-carbohydrate adducts, useful in understanding the details of the mechanism of non-enzymatic glycation in vivo. To investigate the early glycation products, in our recent studies we used carbohydrate-peptide esters in which the sugar moiety (D-glucose, D-mannose, or D-galactose) is linked through its C-6 hydroxy group to the C-terminal carboxy group of the endogenous opioid pentapeptide leucine-enkephalin (H-Tyr-Gly-Gly-Phe-Leu-OH) as model compounds for the study of the Maillard reaction in vitro.12±14 We found for the first time that, depending on the reaction conditions, in addition to Amadori rearrangement, an alternative pathway for the carbohydrate-induced

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Untitled

Cited by 15 publications

References 9 publications

Study of degradation pathways of Amadori compounds obtained by glycation of opioid pentapeptide and related smaller fragments: Stability, reactions, and spectroscopic properties

Study of degradation pathways of Amadori compounds obtained by glycation of opioid pentapeptide and related smaller fragments: Stability, reactions, and spectroscopic properties

Stereochemical Assignment of Diastereomeric Imidazolidinone‐Ring‐Containing Bicyclic Sugar‐Peptide Adducts: NMR Spectroscopy and Molecular Calculations

The early glycation products of the Maillard reaction: mass spectrometric characterization of novel imidazolidinones derived from an opioid pentapeptide and glucose

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