Kirthi Byadagi, Manjunath Meti, Sharanappa Nandibewoor, Shivamurti Chimatadar. Investigation of binding behaviour of procainamide hydrochloride with human serum albumin using synchronous, 3D fluorescence and circular dichroism[J]. Journal of Pharmaceutical Analysis, 2017, 7(2): 103-109.
Citation:
Kirthi Byadagi, Manjunath Meti, Sharanappa Nandibewoor, Shivamurti Chimatadar. Investigation of binding behaviour of procainamide hydrochloride with human serum albumin using synchronous, 3D fluorescence and circular dichroism[J]. Journal of Pharmaceutical Analysis, 2017, 7(2): 103-109.
Kirthi Byadagi, Manjunath Meti, Sharanappa Nandibewoor, Shivamurti Chimatadar. Investigation of binding behaviour of procainamide hydrochloride with human serum albumin using synchronous, 3D fluorescence and circular dichroism[J]. Journal of Pharmaceutical Analysis, 2017, 7(2): 103-109.
Citation:
Kirthi Byadagi, Manjunath Meti, Sharanappa Nandibewoor, Shivamurti Chimatadar. Investigation of binding behaviour of procainamide hydrochloride with human serum albumin using synchronous, 3D fluorescence and circular dichroism[J]. Journal of Pharmaceutical Analysis, 2017, 7(2): 103-109.
P.G. Department of Studies in Chemistry, Karnatak University, Dharwad 580003, India
Funds:
Kirthi S. Byadagi gratefully acknowledges the UGC, New Delhi, India, for the award of Research Fellowship in science for Meritorious Students (RFSMS). The authors thank the Chairman, Department of Molecular Biophysics, Indian Institute of Science, Bangalo
Interaction of procainamide hydrochloride (PAH) with human serum albumin (HSA) is of great significance in understanding the pharmacokinetic and pharmacodynamic mechanisms of the drug. Multi-spectroscopic techniques were used to investigate the binding mode of PAH to HSA and results revealed the presence of static type of quenching mechanism. The number of binding sites, binding constants and thermodynamic parameters were calculated. The results showed a spontaneous binding of PAH to HSA and hydrophobic interactions played a major role. In addition, the distance between PAH and the Trp–214 was estimated employing the F?rster's theory. Site marker competitive experiments indicated that the binding of PAH to HSA primarily took place in subdomain ⅡA (Sudlow's site I). The influence of interference of some common metal ions on the binding of PAH to HSA was studied. Synchronous fluorescence spectra (SFS), 3D fluorescence spectra and circular dichroism (CD) results indicated the conformational changes in the structure of HSA.