Glyoxal induced structural transition of buffalo kidney cystatin to molten globule and aggregates: Anti-fibrillation potency of quinic acid

July 28, 2017

Title

Glyoxal induced structural transition of buffalo kidney cystatin to molten globule and aggregates: Anti-fibrillation potency of quinic acid

Author

Anas Shamsi, Azaj Ahmed, Bilqees Bano

Year

2016

Journal

IUBMB Life

Abstract

In our study buffalo kidney cystatin (BKC) is transformed from native conformation to amyloid fibrils when incubated with 20 mM glyoxal for a prolonged time period. These amyloid fibrils are at the heart of a number of pathological disorders. In the presence of 10 mM glyoxal, BKC retained native-like secondary structure, decreased intrinsic and increased ANS fluorescence was observed, characteristics of molten globule state (MG), thus suggesting the occurrence of MG state at this concentration. At 20 mM glyoxal, BKC aggregates were characterized by a further decrease in ANS fluorescence attributable to internalization of hydrophobic clusters owing to protein-protein interaction. Circular dichroism and FTIR spectroscopy further revealed the existence of β sheet structure and there was an increase in Thioflavin T fluorescence, Rayleigh light scattering, turbidity as well as red shift in congo red absorbance thus confirming the existence of aggregates. We have also studied the anti-aggregation effect of polyol, quinic acid making use of various above mentioned biophysical assays. Our proposed work strongly favors the formation of BKC aggregates in the presence of glyoxal, which is present in higher amounts in pathological conditions owing to defective glycolysis pathway and also use of polyol as an antifibrillating agent. © 2016 IUBMB Life, 68(2):156–166, 2016

Instrument

J-815

Keywords

Circular dichroism, Protein folding, Secondary structure, Aggregation, Biochemistry