Vanadium(IV) complexes of salicylaldehyde-based furoic acid hydrazones: Synthesis, BSA binding and in vivo antidiabetic potential
Date
14.04.2023Author
Zahirovi´c, AdnanHadzalic, Selma
Visnjevac, Aleksandar
Focak, Muhamed
Tüzün,Burak
Zilic, Dijana
Roca, Suncica
Jurec, Jurica
Topcagic, Anela
Osmankovic, Irnesa
Metadata
Show full item recordAbstract
Solution synthesis afforded five novel neutral heteroleptic octahedral paramagnetic mononuclear oxidovanadium(
IV) complexes of general composition [VO(bpy)L], where L is a dianionic tridentate ONO-donor hydrazone
ligand derived from 2-furoic acid hydrazide and salicylaldehyde and its 5-substituted derivatives. Characterization
was carried out by elemental analysis, mass spectrometry, infrared, electron, NMR, and EPR spectroscopy,
cyclic voltammetry and conductometry. The molecular and crystal structure of the complex with 5-chlorosalicylaldehyde
2-furoic acid hydrazone (2) was determined. The quantum chemical properties of the vanadium
complexes were studied at B3LYP and M062X levels with the lanl2dz basis set using Gaussian. Additionally,
Swiss-ADME analysis was performed and complex (4), featuring a 5-nitro substituent on the hydrazone ligand,
was selected for further investigation. The effects of the in vivo application of the complex on selected
biochemical parameters in healthy and diabetic Wistar rats were investigated. Strong antidiabetic effect associated
with moderate hypoalbuminemia was observed. Furthermore, the interaction of complexes with BSA was
studied by spectrofluorimetry. A significant conformational change of BSA in the presence of vanadium complexes
was found. Synchronous fluorescence spectra revealed significant changes in the tyrosine microenvironment
of BSA. The FRET analysis was also used and the non-radiative process of energy transfer is elucidated.
Thermodynamic data suggest van der Waals forces and hydrogen bonding as predominant binding modes of
complexes to BSA.