A comparative binding mechanism between human serum albumin and α-1-acid glycoprotein with corilagin: Biophysical and computational approach

dc.contributor.author Yeggoni, Daniel Pushparaju
dc.contributor.author Rachamallu, Aparna
dc.contributor.author Subramanyam, Rajagopal
dc.date.accessioned 2022-03-27T03:47:13Z
dc.date.available 2022-03-27T03:47:13Z
dc.date.issued 2016-01-01
dc.description.abstract The binding of corilagin with plasma serum proteins like human serum albumin (HSA) and α-1-acid glycoprotein (AGP) was investigated under physiological conditions. To understand the pharmacological importance of the corilagin molecule, anti-inflammatory activity on mouse macrophages (RAW 264.7) cell lines was studied. This study reveals that corilagin caused an increase in inhibition growth of inflamed macrophages in concentration-dependent manner with an IC50 value of 66 μM. Further, intrinsic fluorescence of HSA and AGP was quenched upon titration of corilagin, and the binding constants obtained from fluorescence emission was found to be Kcorilagin 4.2 ± 0.02 × 105 M-1 which corresponds to the free energy of -7.6 kcal M-1 at 25°C for a HSA-corilagin complex. Interestingly, corilagin showed binding with AGP, an acute phase protein, and the binding constant was found to be Kcorilagin = 1.5 ± 0.01 × 104 M-1 and its free energy was -5.6 kcal M-1 at 25°C. Further, the average binding distance, r, between the donor (HSA) and acceptor (corilagin) was calculated and found to be 1.32 nm according to Förster's theory of non-radiation energy transfer. Later, circular dichroism studies emphasized that there are marginal changes in secondary structural conformation of HSA in the presence of corilagin. Corilagin is specifically bound to site I of HSA which was proved by site specific marker, phenylbutazone. Furthermore, the binding details between corilagin and HSA revealed that corilagin was bound to subdomain IIA through multiple interactions like hydrogen bonding and hydrophobic effects. Molecular dynamic studies (MD) also suggest that binding is very precise to site I (IIA domain) on HSA. Also, MD studies showed that HSA-corilagin complex reaches equilibration state at around 4 ns, which proves that the HSA-corilagin complex is stable in nature, hence the experimental and computational results are in agreement. Thus, examining the interaction mechanism of corilagin with plasma proteins may play a critical role in developing corilagin inspired drugs.
dc.identifier.citation RSC Advances. v.6(46)
dc.identifier.uri 10.1039/c6ra06837e
dc.identifier.uri http://xlink.rsc.org/?DOI=C6RA06837E
dc.identifier.uri https://dspace.uohyd.ac.in/handle/1/5459
dc.title A comparative binding mechanism between human serum albumin and α-1-acid glycoprotein with corilagin: Biophysical and computational approach
dc.type Journal. Article
dspace.entity.type
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