Characterization of advanced glycation end products and aggregates of irisin: Multispectroscopic and microscopic approaches

Glycation of proteins leading to the formation of advanced glycation end products (AGEs) has been demonstrated to contribute to the pathogenesis of several diseases. Irisin is a clinically significant protein, putatively involved in obesity, diabetes, and neurological disorders. This study aimed to...

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Veröffentlicht in:	Journal of cellular biochemistry 2023-01, Vol.124 (1), p.156-168
Hauptverfasser:	Waseem, Rashid, Shamsi, Anas, Khan, Tanzeel, Anwer, Ayesha, Shahid, Mohammad, Kazim, Syed Naqui, Hassan, Md. Imtaiyaz, Islam, Asimul
Format:	Artikel
Sprache:	eng
Schlagworte:	Adducts advanced glycation end products Advanced glycosylation end products Age Aggregates Alzheimer's disease Diabetes Diabetes Mellitus Fibronectins Fluorescence Fluorescence microscopy Glycation End Products, Advanced - metabolism Glycosylation Humans irisin Microscopy Molecular docking Molecular Docking Simulation Neurodegenerative diseases Neurological diseases Pathogenesis Proteins Pyruvaldehyde - pharmacology Spectroscopy Transmission electron microscopy
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container_title	Journal of cellular biochemistry
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description	Glycation of proteins leading to the formation of advanced glycation end products (AGEs) has been demonstrated to contribute to the pathogenesis of several diseases. Irisin is a clinically significant protein, putatively involved in obesity, diabetes, and neurological disorders. This study aimed to monitor the methyl‐glyoxal (MG) induced AGEs and aggregate formation of irisin, as a function of time, employing multispectroscopic and microscopic approaches. ANS fluorescence suggested a molten globule‐like state on Day 6, followed by the formation of irisin AGEs adducts, as confirmed by AGE‐specific fluorescence. Glycation of irisin led to aggregate formation, which was characterized by Thioflavin T fluorescence, CD spectroscopy, and microscopic studies. These aggregates were confirmed by exploiting fluorescence microscopy, confocal, and transmission electron microscopy. Molecular docking was performed to determine the crucial residues of irisin involved in irisin‐MG interaction. Usually, MG is present in trace amounts as a metabolic by‐product in the body, which is found to be elevated in diseased conditions viz. diabetes and Alzheimer's disease. This study characterized the AGEs and aggregates of clinically important protein, irisin; and since MG level has been found to be increased in various pathological conditions, this study provides a clinical perspective. There is a possibility that elevated MG concentrations might glycate irisin resulting in reduced irisin levels as reported in pathological conditions. However, further investigations are required to prove it.
doi_str_mv	10.1002/jcb.30353
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Imtaiyaz ; Islam, Asimul</creator><creatorcontrib>Waseem, Rashid ; Shamsi, Anas ; Khan, Tanzeel ; Anwer, Ayesha ; Shahid, Mohammad ; Kazim, Syed Naqui ; Hassan, Md. Imtaiyaz ; Islam, Asimul</creatorcontrib><description>Glycation of proteins leading to the formation of advanced glycation end products (AGEs) has been demonstrated to contribute to the pathogenesis of several diseases. Irisin is a clinically significant protein, putatively involved in obesity, diabetes, and neurological disorders. This study aimed to monitor the methyl‐glyoxal (MG) induced AGEs and aggregate formation of irisin, as a function of time, employing multispectroscopic and microscopic approaches. ANS fluorescence suggested a molten globule‐like state on Day 6, followed by the formation of irisin AGEs adducts, as confirmed by AGE‐specific fluorescence. Glycation of irisin led to aggregate formation, which was characterized by Thioflavin T fluorescence, CD spectroscopy, and microscopic studies. These aggregates were confirmed by exploiting fluorescence microscopy, confocal, and transmission electron microscopy. Molecular docking was performed to determine the crucial residues of irisin involved in irisin‐MG interaction. Usually, MG is present in trace amounts as a metabolic by‐product in the body, which is found to be elevated in diseased conditions viz. diabetes and Alzheimer's disease. This study characterized the AGEs and aggregates of clinically important protein, irisin; and since MG level has been found to be increased in various pathological conditions, this study provides a clinical perspective. There is a possibility that elevated MG concentrations might glycate irisin resulting in reduced irisin levels as reported in pathological conditions. 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Imtaiyaz</creatorcontrib><creatorcontrib>Islam, Asimul</creatorcontrib><title>Characterization of advanced glycation end products and aggregates of irisin: Multispectroscopic and microscopic approaches</title><title>Journal of cellular biochemistry</title><addtitle>J Cell Biochem</addtitle><description>Glycation of proteins leading to the formation of advanced glycation end products (AGEs) has been demonstrated to contribute to the pathogenesis of several diseases. Irisin is a clinically significant protein, putatively involved in obesity, diabetes, and neurological disorders. This study aimed to monitor the methyl‐glyoxal (MG) induced AGEs and aggregate formation of irisin, as a function of time, employing multispectroscopic and microscopic approaches. ANS fluorescence suggested a molten globule‐like state on Day 6, followed by the formation of irisin AGEs adducts, as confirmed by AGE‐specific fluorescence. 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subjects	Adducts advanced glycation end products Advanced glycosylation end products Age Aggregates Alzheimer's disease Diabetes Diabetes Mellitus Fibronectins Fluorescence Fluorescence microscopy Glycation End Products, Advanced - metabolism Glycosylation Humans irisin Microscopy Molecular docking Molecular Docking Simulation Neurodegenerative diseases Neurological diseases Pathogenesis Proteins Pyruvaldehyde - pharmacology Spectroscopy Transmission electron microscopy
title	Characterization of advanced glycation end products and aggregates of irisin: Multispectroscopic and microscopic approaches
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