Evidence for the formation of adducts and S-(carboxymethyl)cysteine on reaction of alpha-dicarbonyl compounds with thiol groups on amino acids, peptides, and proteins

Jingmin Zeng; Michael Jonathan Davies

doi:10.1021/tx050074u

Evidence for the formation of adducts and S-(carboxymethyl)cysteine on reaction of alpha-dicarbonyl compounds with thiol groups on amino acids, peptides, and proteins

115 Citationer (Scopus)

Abstract

Nonenzymatic covalent adduction of glucose, or aldehydes derived from glucose or oxidation reactions, to proteins (glycation) has been proposed as a key factor in the vascular complications of diabetes. In conditions of chronic glucose elevation, alpha-dicarbonyl compounds, including glyoxal and methylglyoxal, are also present at elevated levels. These carbonyls react rapidly with nucleophilic groups on Lys and Arg side chains and the N-terminal amino group, to give poorly defined products, often called advanced glycation endproducts. These are present at elevated levels in tissue samples from people with diabetes and have been linked with disease development. As the thiol group of Cys is a powerful nucleophile, we hypothesized that adduction should occur rapidly and efficiently at Cys residues. It is shown here that Cys residues react with dicarbonyl compounds to give thiol-aldehyde adducts, which have been detected by electrospray ionization mass spectrometry. This process is accompanied by loss of the thiol group and formation of stable products. In the case of glyoxal, these reactions give S-(carboxymethyl)cysteine. The percentage conversion of thiol lost to product is substrate-dependent and < or = 32%. S-(Carboxymethyl)cysteine has been quantified by HPLC on thiol-containing, protected amino acids, peptides, and proteins, after exposure to glyoxal. The yield of this product has been shown to increase in a time- and dose-dependent manner with higher glyoxal concentrations and to also be formed on extended incubation of serum albumin with glucose. This novel, stable, advanced glycation endproduct is a potential marker of glycation.

Originalsprog	Engelsk
Tidsskrift	Chemical Research in Toxicology
Vol/bind	18
Udgave nummer	8
Sider (fra-til)	1232-41
Antal sider	10
ISSN	0893-228X
DOI	https://doi.org/10.1021/tx050074u
Status	Udgivet - aug. 2005
Udgivet eksternt	Ja

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10.1021/tx050074u

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title = "Evidence for the formation of adducts and S-(carboxymethyl)cysteine on reaction of alpha-dicarbonyl compounds with thiol groups on amino acids, peptides, and proteins",

abstract = "Nonenzymatic covalent adduction of glucose, or aldehydes derived from glucose or oxidation reactions, to proteins (glycation) has been proposed as a key factor in the vascular complications of diabetes. In conditions of chronic glucose elevation, alpha-dicarbonyl compounds, including glyoxal and methylglyoxal, are also present at elevated levels. These carbonyls react rapidly with nucleophilic groups on Lys and Arg side chains and the N-terminal amino group, to give poorly defined products, often called advanced glycation endproducts. These are present at elevated levels in tissue samples from people with diabetes and have been linked with disease development. As the thiol group of Cys is a powerful nucleophile, we hypothesized that adduction should occur rapidly and efficiently at Cys residues. It is shown here that Cys residues react with dicarbonyl compounds to give thiol-aldehyde adducts, which have been detected by electrospray ionization mass spectrometry. This process is accompanied by loss of the thiol group and formation of stable products. In the case of glyoxal, these reactions give S-(carboxymethyl)cysteine. The percentage conversion of thiol lost to product is substrate-dependent and < or = 32%. S-(Carboxymethyl)cysteine has been quantified by HPLC on thiol-containing, protected amino acids, peptides, and proteins, after exposure to glyoxal. The yield of this product has been shown to increase in a time- and dose-dependent manner with higher glyoxal concentrations and to also be formed on extended incubation of serum albumin with glucose. This novel, stable, advanced glycation endproduct is a potential marker of glycation.",

keywords = "Amino Acids, Carbocysteine, Chromatography, High Pressure Liquid, Cysteine, Glucose, Glycosylation End Products, Advanced, Glyoxal, Peptides, Proteins, Serum Albumin, Bovine, Spectrometry, Fluorescence, Spectrometry, Mass, Electrospray Ionization, Sulfhydryl Compounds",

author = "Jingmin Zeng and Davies, {Michael Jonathan}",

year = "2005",

month = aug,

doi = "10.1021/tx050074u",

language = "English",

volume = "18",

pages = "1232--41",

journal = "Chemical Research in Toxicology",

issn = "0893-228X",

publisher = "American Chemical Society",

number = "8",

}

TY - JOUR

T1 - Evidence for the formation of adducts and S-(carboxymethyl)cysteine on reaction of alpha-dicarbonyl compounds with thiol groups on amino acids, peptides, and proteins

AU - Zeng, Jingmin

AU - Davies, Michael Jonathan

PY - 2005/8

Y1 - 2005/8

N2 - Nonenzymatic covalent adduction of glucose, or aldehydes derived from glucose or oxidation reactions, to proteins (glycation) has been proposed as a key factor in the vascular complications of diabetes. In conditions of chronic glucose elevation, alpha-dicarbonyl compounds, including glyoxal and methylglyoxal, are also present at elevated levels. These carbonyls react rapidly with nucleophilic groups on Lys and Arg side chains and the N-terminal amino group, to give poorly defined products, often called advanced glycation endproducts. These are present at elevated levels in tissue samples from people with diabetes and have been linked with disease development. As the thiol group of Cys is a powerful nucleophile, we hypothesized that adduction should occur rapidly and efficiently at Cys residues. It is shown here that Cys residues react with dicarbonyl compounds to give thiol-aldehyde adducts, which have been detected by electrospray ionization mass spectrometry. This process is accompanied by loss of the thiol group and formation of stable products. In the case of glyoxal, these reactions give S-(carboxymethyl)cysteine. The percentage conversion of thiol lost to product is substrate-dependent and < or = 32%. S-(Carboxymethyl)cysteine has been quantified by HPLC on thiol-containing, protected amino acids, peptides, and proteins, after exposure to glyoxal. The yield of this product has been shown to increase in a time- and dose-dependent manner with higher glyoxal concentrations and to also be formed on extended incubation of serum albumin with glucose. This novel, stable, advanced glycation endproduct is a potential marker of glycation.

AB - Nonenzymatic covalent adduction of glucose, or aldehydes derived from glucose or oxidation reactions, to proteins (glycation) has been proposed as a key factor in the vascular complications of diabetes. In conditions of chronic glucose elevation, alpha-dicarbonyl compounds, including glyoxal and methylglyoxal, are also present at elevated levels. These carbonyls react rapidly with nucleophilic groups on Lys and Arg side chains and the N-terminal amino group, to give poorly defined products, often called advanced glycation endproducts. These are present at elevated levels in tissue samples from people with diabetes and have been linked with disease development. As the thiol group of Cys is a powerful nucleophile, we hypothesized that adduction should occur rapidly and efficiently at Cys residues. It is shown here that Cys residues react with dicarbonyl compounds to give thiol-aldehyde adducts, which have been detected by electrospray ionization mass spectrometry. This process is accompanied by loss of the thiol group and formation of stable products. In the case of glyoxal, these reactions give S-(carboxymethyl)cysteine. The percentage conversion of thiol lost to product is substrate-dependent and < or = 32%. S-(Carboxymethyl)cysteine has been quantified by HPLC on thiol-containing, protected amino acids, peptides, and proteins, after exposure to glyoxal. The yield of this product has been shown to increase in a time- and dose-dependent manner with higher glyoxal concentrations and to also be formed on extended incubation of serum albumin with glucose. This novel, stable, advanced glycation endproduct is a potential marker of glycation.

KW - Amino Acids

KW - Carbocysteine

KW - Chromatography, High Pressure Liquid

KW - Cysteine

KW - Glucose

KW - Glycosylation End Products, Advanced

KW - Glyoxal

KW - Peptides

KW - Proteins

KW - Serum Albumin, Bovine

KW - Spectrometry, Fluorescence

KW - Spectrometry, Mass, Electrospray Ionization

KW - Sulfhydryl Compounds

U2 - 10.1021/tx050074u

DO - 10.1021/tx050074u

M3 - Journal article

C2 - 16097796

SN - 0893-228X

VL - 18

SP - 1232

EP - 1241

JO - Chemical Research in Toxicology

JF - Chemical Research in Toxicology

IS - 8

ER -

Evidence for the formation of adducts and S-(carboxymethyl)cysteine on reaction of alpha-dicarbonyl compounds with thiol groups on amino acids, peptides, and proteins

Abstract

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