Carlotta Pontremoli, Nadia Barbero, Guido Viscardi, Sonja Visentin. Insight into the interaction of inhaled corticosteroids with human serum albumin:A spectroscopic-based study[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 37-44.
Citation:
Carlotta Pontremoli, Nadia Barbero, Guido Viscardi, Sonja Visentin. Insight into the interaction of inhaled corticosteroids with human serum albumin:A spectroscopic-based study[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 37-44.
Carlotta Pontremoli, Nadia Barbero, Guido Viscardi, Sonja Visentin. Insight into the interaction of inhaled corticosteroids with human serum albumin:A spectroscopic-based study[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 37-44.
Citation:
Carlotta Pontremoli, Nadia Barbero, Guido Viscardi, Sonja Visentin. Insight into the interaction of inhaled corticosteroids with human serum albumin:A spectroscopic-based study[J]. Journal of Pharmaceutical Analysis, 2018, 8(1): 37-44.
It is well known that the safety and efficacy profile of an inhaled cortocosteroid (ICS) is influenced by the pharmacokinetic properties and associated pharmacodynamic effects of the drug. Freely circulating, protein unbound, and active ICS can cause systemic adverse effects. Therefore, a detailed investigation of drug-protein interaction could be of great interest to understand the pharmacokinetic behaviour of corticosteroids and for the design of new analogues with effective pharmacological properties. In the present work, the interaction between some corticosteroids and human serum albumin (HSA) has been studied by spectroscopic approaches. UV–Vis spectroscopy confirmed that all the investigated corticos-teroids can bind to HSA forming a protein-drug complex. The intrinsic fluorescence of HSA was quenched by all the investigated drugs, which was rationalized in terms of a static quenching mechanism. The thermodynamic parameters determined by the Van't Hoff analysis of the binding constants (negativeΔH andΔS values) clearly indicate thathydrogen bonds and van der Waals forces play a major role in the binding process between albumin and betamethasone, flunisolide and prednisolone, while hydrophobic forces may play a major role in stabilizing albumin-triamcinolone complexes.