Nonenzymatic glycosylation of isolated human immunoglobulin‐G by D‐ribose
Citations Over TimeTop 18% of 2022 papers
Abstract
Glycation is vital in terms of its damaging effect on macromolecules resulting in the formation of end products, which are highly reactive and cross-linked irreversible structures, known as advanced glycation end products (AGEs). The continuous accumulation of AGEs is associated with severe diabetes and its associated ailments. Saccharides with their reducing ends can glycate amino acid side chains of proteins, among them glucose is well-known for its potent glycating capability. However, other reducing sugars can be more reactive glycating agents than glucose. The D-ribose is a pentose sugar-containing an active aldehyde group in its open form and is responsible for affecting the biological processes of the cellular system. D-ribose, a key component of many biological molecules, is more reactive than most reducing sugars. Protein glycation by reducing monosaccharides such as D-ribose promotes the accelerated formation of AGEs that could lead to cellular impairments and dysfunctions. Also, under a physiological cellular state, the bioavailability rate of D-ribose is much higher than that of glucose in diabetes, which makes this species much more active in protein glycation as compared with D-glucose. Due to the abnormal level of D-ribose in the biological system, the glycation of proteins with D-ribose needs to be analyzed and addressed carefully. In the present study, human immunoglobulin G (IgG) was isolated and purified via affinity column chromatography. D-ribose at 10 and 100 mM concentrations was used as glycating agent, for 1-12 days of incubation at 37°C. The postglycation changes in IgG molecule were characterized by UV-visible and fluorescence spectroscopy, nitroblue tetrazolium assay, and various other physicochemical analyses for the confirmation of D-ribose mediated IgG glycation.
Related Papers
- → Protein Cross-linking by the Maillard Reaction(1996)301 cited
- → Methylglyoxal: Its Presence in Beverages and Potential Scavengers(2008)58 cited
- → Formation of 2,5-Dimethyl-4-hydroxy-3(2H)-furanone through Methylglyoxal: A Maillard Reaction Intermediate(2008)45 cited
- → Cocoa melanoidins reduce the formation of dietary advanced glycation end-products in dairy mimicking system(2020)28 cited
- → Effects of o-phenylenediamine on methylglyoxal generation from monosaccharide: Comment on “correlation of methylglyoxal with acrylamide formation in fructose/asparagine Maillard reaction model system”(2008)4 cited