Comparison of structure, logP and P388 cytotoxicity of some phenyl and ferrocenyl cyclic chalcone analogues. Application of RP-TLC for logP determination of the ferrocenyl analogues

Cyclic chalcone analogues (2–5) and their ferrocenyl counterparts (6–10) were synthesized and their logP and P388 cyctotoxity were investigated. The structures of the newly synthesized compounds were confirmed by IR 1H and 13NMR spectroscopy. Comparison of conjugation and stereochemistry of the respective derivatives showed similar characteristics compared to ones with some higher degree of conjugation in the ferrocenyl series. Comparison of logP of the ferrocenyl derivatives determined by a validated RP-TLC method showed the ferrocenyl derivatives to have higher logP TLC. The results demonstrate that the differences in three dimensional shape, conjugation and lipophilicity do not have strong influence on the P388 cytotoxicity of the investigated phenyl (1−5) and ferrocenyl (6−10) enones.

Assessment of the effect of cyclic chalcone analogues on mitochondrial membrane and DNA

The cytotoxic and protective effects of selected synthetic chalcone analogues have been shown in previous studies. We studied their cytotoxic effect on the modification of mitochondrial membrane potential and on DNA. The first spectral information about the methoxy group as well as the dimethylamino substituent in E-2-arylmethylene-1-benzosuberones molecule was obtained by absorption and emission spectra. The cytotoxic effect of both cyclic chalcone analogues on DNA were detected by alkaline single-cell gel electrophoresis. Better fluorescent chalcone analogue E-2-(4′-dimethylamino-benzylidene)-1-benzosuberone was studied further in fresh isolated mitochondria. The decrease of rat liver mitochondria membrane potential (Δψ) was observed by fluorescence emission spectra. For the collapsing of mitochondrial potentials and as the negative control of mitochondrial function the CCCP uncoupler was used. The absorption maximum of the methoxy group was found at a shorter wavelength (λ = 335 nm) than that of the dimethylamino group (λ = 406 nm). The excitation spectra were very similar to the absorption spectra for both molecules but the emission spectra showed a better fluorescence for dimethylamino derivative. After the addition of E-2-(4′-dimethylamino-benzylidene)-1-benzosuberone to the intact mitochondria the decrease of mitochondrial membrane potential Δψ was observed by emisssion fluorescence spectra. Both cyclic chalcone analogues induced DNA damage, which was detected by alkaline comet assay. Mainly the apoptotic cells were detected, but necrotic cells were also present. Similarities in the percentages of DNA migration from the head were observed in both treatment groups. Both benzosuberones, with dimethylamino- and methoxy- substituent, were very active biologically, as shown by DNA results of the comet assay. Due to its better fluorescence properties, only the fluorophore with dimethylamino substituent was selected for further study of the function of rat liver mitochondria. Decline of mitochondrial function as well as mitochondrial DNA damage were evident between experimental and control groups.