👤 Hogg KG

Title: Enhancing Bioactivity of Abstract: This study investigates the potential of using ionic liquids as cosolvents to enhance the solubility and activity of poorly soluble rhodium(III) complexes, particularly those with diene, pyridine derivatives, and camphor-derived bis-pyrazolylpyridine ligands, in relation to 5'-GMP, CT-DNA, and HSA as well as their biological activity. Findings indicate that ionic liquids significantly increase the substitution activity of these complexes toward 5'-GMP while only marginally affecting DNA/HSA binding affinities with molecular docking, further confirming the experimental results. Lipophilicity assessments indicated good lipophilicity. Notably, cytotoxicity studies show that Rh2 is selectively effective against HeLa cancer cells, with IL1 and IL10 modulating the cytotoxic effects. Redox evaluations indicate that rhodium complexes induce oxidative stress in cancerous cells while maintaining redox balance in noncancerous cells. By elucidating the role of ionic liquids in modulating these effects, the study proposes a promising avenue for augmenting the efficacy and selectivity of cancer treatments, thus opening new horizons in cancer therapeutics. Show less

We report cytotoxic ruthenium(ii) complexes of the general formula [RuCl(cis-tach)(diphosphine)]+ (cis-tach = cis-cis-1,3,5-triaminocyclohexane) that have been characterised by 1H, 13C and 31P{1H} NMR spectroscopy, mass spectrometry, X-ray crystallography and elemental analysis. The kinetics of aquation and stability of the active species have been studied, showing that the chlorido ligand is substituted by water at 298 K with first order rate constants of 10-2-10-3 s-1, ideal for potential clinical use as anti-tumour agents. Strong interactions with biologically relevant duplex and quadruplex DNA models correlate with the activity observed with A549, A2780 and 293T cell lines, and the degree of activity was found to be sensitive to the chelating diphosphine ligand. A label-free ptychographic cell imaging technique recorded cell death processes over 4 days. The Ru(ii) cis-tach diphosphine complexes exhibit anti-proliferative effects, in some cases outperforming cisplatin and other cytotoxic ruthenium complexes. Show less

The novel steroidal conjugates [M(η(5)-C(5)Me(5))Cl(LEV-ppy)] (M = Rh (1) and Ir (2)) bearing the lipophilic levonorgestrel group 17-α-[2-phenylpyridyl-4-ethynyl]-19-nortestosterone (LEV-ppy), where the chelating ligand is N and C-bound, have been prepared and characterized. Both compounds are more active than cisplatin (about 6-fold) in T47D (breast cancer) at 48 h incubation time. On the other hand, very low resistance factors (RF) of 1 and 2 in A2780cisR (cisplatin-resistant ovarian carcinoma) at 48 h were observed (RF = 0.9 and 1.1, respectively). The iridium steroidal compound 2 is twice as active as the non-steroidal analogue 2', whose promising anticancer activity has recently been reported by Sadler. Theoretical DFT calculations on complexes 1 and 2 at the B3LYP-D/def2-TZVP-ecp level of theory show that the strongest bond to the metal atom is the η(5)-interaction to the Cp* ligand and that both of them feature a rather strong metal-chlorine bond. The new steroidal conjugates 1 and 2 are able to bind to DNA according to Hoechst 33258 displacement experiments and ESI-TOF MS spectrometry studies. Complexes 1 and 2 are also cathepsin B inhibitors, an enzyme implicated in a number of cancer related events. Show less