Cytotoxicity of a series of ferrocene-containing beta-diketones.

BACKGROUND: Oxidised ferrocenium compounds often possess antineoplastic activity. In contrast, reduced ferrocene derivatives frequently only show activity if cell components can oxidise them inside cells to the ferrocenium species. Ferrocene compounds having the lowest formal reduction potential are normally expected to be the most cytotoxic. Here we demonstrate this is not always the case. Some of the structure-related and physical properties that enhance ferrocenyl antineoplastic activity have been investigated. MATERIALS AND METHODS: Ferrocene-containing beta-diketones of the type FcCOCH2COR with Fc=ferrocenyl and R=CF3, CCl3, CH3, Ph(=C6H5, phenyl) and Fc, were tested for cytotoxicity against HeLa (human cervix epitheloid), COR L23 (human large cell lung carcinoma) and platinum resistant CoLo320DM (human colorectal) and COR L23/CPR cancer cell lines. Cell survival was measured by means of the colorometric 3-(4,5-dimethylthiazol-2-yl)-diphenyltetrazolium bromide (MTT) assay. RESULTS: The mean drug concentration from 3 experiments causing 50% cell growth inhibition, (IC50) values, varied between 4.5 and 85.0 micromol dm(-3'), with the CF3(-) containing beta-diketone being the most active. Drug activity was inversely proportional to the formal reduction potential, Eo', of the ferrocenyl group, and dependent on the R group in the general beta-diketone structure. The CF3 complex was more cytotocic than cisplatin inter alia against platinum-resistant cell lines, and at least eight times more reactive against cancer cell lines than against PHA (phytohaemagglutinin)-stimulated lymphocyte cultures. CONCLUSION: A drug activity-structural relationship exists in that ferrocenyl drugs with halogen substituents chains are more cytotoxic. Compounds with higher ferrocenyl group formal reduction potential and stronger acid strength (i.e. smaller pKa value) are more cytotoxic.

Antineoplastic activity of a series of ferrocene-containing alcohols.

BACKGROUND: Often potentially good chemotherapeutic drugs find limited clinical use due to the many negative medical and physical side-effects they may exhibit. To combat these negative side-effects, new antineoplastic materials are continuously being synthesised and evaluated. Ferrocene-containing compounds under certain conditions may show appreciable anticancer activity. Some of the factors that determine this activity have been investigated. MATERIALS AND METHODS: Ferrocene-containing alcohols were tested for cytotoxicity against the HeLa cancer cell line. Cell survival was measured by means of the colorometric 3-(4,5-dimethylthiazol-2-yl)-diphenyltetrazolium bromide assay. RESULTS: The 50% lethal dosage of 4-ferrocenylbutanol was 5.72 micromol. dm(-3) and for 2-ferrocenylethanol and 3-ferrocenylpropanol it was 35.0 and 17 micromol. dm(-3) respectively while for ferrocenylmethanol IC50 was >100 micromol. dm(-3). CONCLUSION: A drug activity-structural relationship exists in that ferrocenyl drugs with longer side chains are more cytotoxic. Compounds with lower ferrocenyl group formal reduction potential are also more cytotoxic.

Hepatocyte function in a radial-flow bioreactor using a perfluorocarbon oxygen carrier.

UNLABELLED: The aims of this study were, first, to indicate the metabolic activity of hepatocytes in a radial-flow polyurethane foam matrix bioreactor relative to monocultures, and second, to evaluate the effect on the hepatocytes of including a synthetic perfluorocarbon (PFC) oxygen carrier to the recirculating medium. The efficient O2-carrying ability of PFCs may be beneficial to bioreactors employed in stressed cellular environments. Thus, they may also be useful in the treatment of an acute liver failure patient with a bioartificial liver support system (BALSS). Data on the function of three-dimensional (3-D) hepatocyte cultures exposed to emulsified PFCs are lacking. RESULTS: the metabolic functions of the 3-D hepatocyte cultures were improved relative to monocultures. Three-dimensional cultures with and without PFC behaved similarly, and no adverse effects could be detected when PFC was included in the recirculating medium. The addition of PFC significantly improved lidocaine clearance possibly due to the presence of higher O2 tension in the medium. Imaging indicated that large aggregates formed and that seeding had followed flow through the matrix. Simulations indicated first, that the cell numbers used in this study had been insufficient to challenge the bioreactor O2 supply explaining the similarity in performance of the 3-D cultures, and second, that the benefit of adding PFC would be more pronounced at the cell densities likely to be used in a BALSS bioreactor.

Cytotoxicity of a series of water-soluble mixed valent diruthenium tetracarboxylates.

BACKGROUND: Mixed-valent diruthenium tetracarboxylate complexes were shown to have slight antineoplastic activity against P388 leukemia cell lines. However these complexes suffered from poor water-solubility, which may have detrimentally affected their activity. MATERIALS AND METHODS: Mixed-valent diruthenium tetracarboxylates of the type [Ru2(O2CR)4(L)2] (PF6) with L = imidazole, 1-methylimidazole and H2O when R = CH3, L = ethanol when R = Fc (ferrocenyl) or Fc-CH=CH- and of the type M3[Ru2(O2CR)4(H2O)2]4H2O, M = Na+ when R = m-C6H4SO3- and M = K+ when R = p-C6H4SO3-, were tested for cytotoxicity against HeLa and multidrug resistant CoLo 320DM human cancer cell lines. Cell survival was measured by means of the colorometric 3-(4,5dimethylthiazol-2-yl)-diphenyltetrazodium bromide assay. RESULTS: The mean drug concentration from 3 experiments causing 50% cell killing, ie, IC50 values, varied between 120 and 950 micromol dm(-3). CONCLUSION: The antineoplastic activity of the highly water-soluble m-sulpho derivative was the highest, while the poorly water-soluble imidazole derivatives did not exhibit any cytotoxic properties. The CoLo 320DM cancer cells were 5 times more prone to drug-induced cell death than the HeLa cells.