Synthesis and biological evaluation of naphthalimide-polyamine conjugates modified by alkylation as anticancer agents through p53 pathway.

In this study, a series of novel naphthalimide-polyamine conjugates modified by alkylation at the terminal of the polyamine chain were synthesized. These novel conjugates were evaluated for their anti-cancer activities. The results revealed that the length of the polyamine chain and the terminal alkyl group had influences on anticancer activities. Compound 3g was chosen to further study the anti-cancer mechanism and evaluate the anti-tumor efficacy in vivo. It induced intrinsic apoptosis and suppressed migration of hepatoma cells. The preliminary studies of compound 3gin vivo showed that it might be a promising candidate for cancer therapy.

Study on the interaction of anthracenyl-methyl homospermidine conjugate (ANTMHspd) with DNA by spectroscopic methods.

The interaction between anthracenyl-methyl homospermidine conjugate (ANTMHspd) with herring sperm DNA was investigated by UV/vis absorption, fluorescent spectra, circular dichroism (CD) spectroscopy and 1HNMR under physiological conditions (pH=7.4). The observed hypochromism effect and fluorescence quenching of ANTMHspd by DNA, and the displacement of EB from DNA-EB system by ANTMHspd suggested that ANTMHspd might interact with DNA by the combined mode of intercalation and groove binding. Further fluorescent tests at different temperatures revealed that the quenching mechanism was a static type. The quenching constant, binding constant and thermodynamic parameter obtained from fluorescence showed that the type of interaction force included mainly hydrogen bonding and van der Waals, which promoted the binding process. The CD test revealed that ANTMHspd could cause the B to A-like conformational change while ANTMHspd is not a typical DNA intercalator. The 1H NMR tests showed that ANTMHspd partially intercalated DNA. The effect of NaCl and KI on ANTMHspd-DNA interaction provided additional evidences of intercalation. Molecular docking simulation was carried out and the docking model in silico suggested that the binding modes of ANTMHspd and DNA were groove binding and intercalation, with the anthracene moiety inserted in DNA base pairs and the polyamine chain embedded in the DNA groove.

Study on the interaction between the 1,4,5,8-naphthalene diimide-spermine conjugate (NDIS) and DNA using a spectroscopic approach and molecular docking.

The interaction of herring sperm DNA with the 1,4,5,8-naphthalene diimide-spermine conjugate (NDIS) was studied by UV/vis absorption, fluorescence and CD spectroscopic methods. Compared with the 1,8-naphthalimide-spermidine conjugate (NIS), the values of KSV (quenching constant) and Kb (binding constant) of NDIS were larger, and the hypochromic effect in the UV/vis spectra and the quenching effect in the fluorescence of NDIS were more significant. The interaction mode between NDIS and DNA was mainly groove binding. The fluorescence experiments at varying temperatures showed that the binding process of NDIS and DNA was static, as both hydrogen bonds and hydrophobic forces played a major role in the binding of NDIS and DNA. The CD spectrum indicated that NDIS caused a conformational change, like the B to A-DNA transition, and the tests using KI and NaCl and 1H NMR spectroscopy indicated that NDIS was not a classical DNA inserter. All the results demonstrated that both the polyamine side chain and the aromatic rings affect the process of NDIS binding to DNA, which is thus obviously different from that of NIS. The conclusion was confirmed by the in silico molecular docking experiments.