Quercetin as a finer substitute to aminoguanidine in the inhibition of glycation products

•Fructose reacts swiftly with HSA to form AGEs.•AGEs was determined by fluorescence spectroscopy and GK-ribose assay.•Antiglycation experiment suggests that quercetin and its derivatives inhibit the formation of AGEs. Non-enzymatic glycation is the addition of a free carbonyl group of a reducing sug...

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Veröffentlicht in:	International journal of biological macromolecules 2015-06, Vol.77, p.188-192
Hauptverfasser:	Ashraf, Jalaluddin M., Shahab, Uzma, Tabrez, Shams, Lee, Eun Ju, Choi, Inho, Ahmad, Saheem
Format:	Artikel
Sprache:	eng
Schlagworte:	Advance glycation end products (AGEs) Glycation End Products, Advanced - antagonists & inhibitors Glycosylation - drug effects Glyoxal Guanidines - pharmacology Humans Protein Denaturation - drug effects Quercetin Quercetin - pharmacology Serum Albumin - chemistry Serum Albumin - metabolism Temperature
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container_title	International journal of biological macromolecules
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creator	Ashraf, Jalaluddin M. Shahab, Uzma Tabrez, Shams Lee, Eun Ju Choi, Inho Ahmad, Saheem
description	•Fructose reacts swiftly with HSA to form AGEs.•AGEs was determined by fluorescence spectroscopy and GK-ribose assay.•Antiglycation experiment suggests that quercetin and its derivatives inhibit the formation of AGEs. Non-enzymatic glycation is the addition of a free carbonyl group of a reducing sugar to the free amino groups of proteins, which results in the formation of early and advanced glycation end-products (AGEs). Glycation reaction is profoundly associated with diabetes and its secondary complications, such as nephropathy and neuropathy. Glyoxal is a carbonyl species that reacts rapidly with the free amino groups of proteins to form AGEs. While the formation of AGEs with various glycating agents has previously been demonstrated, no extensive studies have been conducted to assess the role of quercetin in all three stages of glycation (early, intermediate and late). In this study, we report the glycation of HSA (human serum albumin) and its characterization by several spectroscopic techniques. Furthermore, inhibition of products at all stages of glycation was studied by various assays. Spectroscopic analysis suggests structural perturbations in the HSA macromolecule as a result of modification, which might be due to the generation of free radicals and the formation of AGEs. Inhibition in the formation of glycation has established that quercetin is a better and a more potent antiglycating agent than aminoguanidine at all stages of glycation.
doi_str_mv	10.1016/j.ijbiomac.2015.03.021
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Non-enzymatic glycation is the addition of a free carbonyl group of a reducing sugar to the free amino groups of proteins, which results in the formation of early and advanced glycation end-products (AGEs). Glycation reaction is profoundly associated with diabetes and its secondary complications, such as nephropathy and neuropathy. Glyoxal is a carbonyl species that reacts rapidly with the free amino groups of proteins to form AGEs. While the formation of AGEs with various glycating agents has previously been demonstrated, no extensive studies have been conducted to assess the role of quercetin in all three stages of glycation (early, intermediate and late). In this study, we report the glycation of HSA (human serum albumin) and its characterization by several spectroscopic techniques. Furthermore, inhibition of products at all stages of glycation was studied by various assays. 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Non-enzymatic glycation is the addition of a free carbonyl group of a reducing sugar to the free amino groups of proteins, which results in the formation of early and advanced glycation end-products (AGEs). Glycation reaction is profoundly associated with diabetes and its secondary complications, such as nephropathy and neuropathy. Glyoxal is a carbonyl species that reacts rapidly with the free amino groups of proteins to form AGEs. While the formation of AGEs with various glycating agents has previously been demonstrated, no extensive studies have been conducted to assess the role of quercetin in all three stages of glycation (early, intermediate and late). In this study, we report the glycation of HSA (human serum albumin) and its characterization by several spectroscopic techniques. Furthermore, inhibition of products at all stages of glycation was studied by various assays. Spectroscopic analysis suggests structural perturbations in the HSA macromolecule as a result of modification, which might be due to the generation of free radicals and the formation of AGEs. 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subjects	Advance glycation end products (AGEs) Glycation End Products, Advanced - antagonists & inhibitors Glycosylation - drug effects Glyoxal Guanidines - pharmacology Humans Protein Denaturation - drug effects Quercetin Quercetin - pharmacology Serum Albumin - chemistry Serum Albumin - metabolism Temperature
title	Quercetin as a finer substitute to aminoguanidine in the inhibition of glycation products
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