Macrocyclic Cavitand β-Cyclodextrin Inhibits the Alcohol-Induced Trypsin Aggregation.
Ushasi PramanikLaxmikanta KhamariSaurabh RaiParitosh MahatoAtanu NandyRahul YadavSameeksha AgrawalSaptarshi MukherjeePublished in: Chemphyschem : a European journal of chemical physics and physical chemistry (2022)
Trypsin, the most abundant pancreatic protein, aids in protein digestion by hydrolysis and exhibits aggregation propensity in presence of alcohol, which can further lead to pancreatitis and eventually pancreatic cancer. Herein, by several experimental and theoretical approaches, we unearth the inhibition of alcohol-induced aggregation of Trypsin by macrocyclic cavitand, β-cyclodextrin (β-CD). β-CD interacts with the native protein and shows inhibitory effect in a dose dependent manner. Moreover, the secondary structures and morphologies of Trypsin in presence of β-CD also clearly emphasize the inhibition of fibril formation. From Fluorescence Correlation Spectroscopy, we observed an enhancement in diffusion time of Nile Red with ∼2.5 times increase in hydrodynamic radius, substantiating the presence of fibrillar structure. Trypsin also shows reduction in its functional activity due to alcohol-induced aggregation. Our simulation data reports the probable residues responsible for fibril formation, which was validated by molecular docking studies.