Sonali M. Shiriskar scite author profile

Hesperidin (HESP), a flavanone glycoside, shows high antioxidant properties and possess ability to go through the blood-brain barrier. Therefore, it could be a potential drug molecule against aggregation based diseases such as Alzheimer's, Parkinson's, and systemic amyloidoses. In this work, we investigated the potential of HESP to interact with hen egg-white lysozyme (HEWL) monomer and prevent its aggregation. The HESP-HEWL binding studies were performed using a fluorescence quenching technique, molecular docking and molecular dynamics simulations. We found a strong interaction of HESP with the lysozyme monomer (Ka, ~ 5 × 10(4) M(-1)) mainly through hydrogen bonding, water bridges, and hydrophobic interactions. We showed that HESP molecule spanned the highly aggregation prone region (amino acid residues 48-101) of HEWL and prevented its fibrillar aggregation. Further, we found that HESP binding completely inhibited amorphous aggregation of the protein induced by disulfide-reducing agent tries-(2-carboxyethyl) phosphine. Conformational and stability studies as followed by various tertiary and secondary structure probes revealed that HESP binding only marginally affected the lysozyme monomer conformation and increased both stability and reversibility of the protein against thermal denaturation. Future studies should investigate detail effects of HESP on solvent dynamics, structure, and toxicity of various aggregates. The answers to these questions will not only target the basic sciences, but also have application in biomedical and biotechnological sciences.

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Effects of 2-amino-8-hydroxyquinoline interaction on the conformation of physiological isomers of human serum albumin

Shiriskar

Agarwal

Pissurlenkar

et al. 2015

Eur Biophys J

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The methods of synthetic chemistry create small molecules rapidly for screening, and ligand-protein interaction studies provide information on how a potential drug interacts with target or carrier proteins such as serum albumin. In this work, we investigate the interaction of amino derivative of 8-hydroxyquinoline, 2-amino-8-hydroxyquinoline (A8HQ), and the effects of its binding on the conformation of different isomers of human serum albumin (HSA) using multispectroscopic techniques and molecular modeling. We found that B isomer, which exists at pH 9, bound A8HQ (K a = 1.92 ± 0.07 × 10(5) M(-1) at 298 K) more strongly as compared with N isomer (K a = 1.19 ± 0.04 × 10(5) M(-1) at 298 K) of HSA, which is known to exist around pH 6. The binding constant at physiological pH (7.4) was also determined, and the value (K a = 1.38 ± 0.05 × 10(5) M(-1) at 298 K) was found to fall between those for N and B isomers, suggesting that both the N and B isomers exist in an equilibrium in plasma. We also determined the thermodynamic parameters such as changes in enthalpy, entropy , and free energy of binding by measuring the binding at four different temperatures. Based on molecular modeling and thermodynamic studies, we propound that the A8HQ-HSA binding involves mainly hydrophobic interactions and hydrogen bonding. Site-specific marker displacement experiments and molecular modeling showed that the molecule preferably binds in subdomain IIA close to Trp214. A8HQ binding to HSA isomers was found to cause both secondary and tertiary structural alterations in the protein.

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Sonali M. Shiriskar

Physical basis for the ofloxacin-induced acceleration of lysozyme aggregation and polymorphism in amyloid fibrils

Effects of hesperidin, a flavanone glycoside interaction on the conformation, stability, and aggregation of lysozyme: multispectroscopic and molecular dynamic simulation studies?

Effects of 2-amino-8-hydroxyquinoline interaction on the conformation of physiological isomers of human serum albumin

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