Conjugates of ferrocene with biological compounds. Coordination to gold complexes and antitumoral properties.

Several bioconjugates of ferrocene with biological compounds such as aminoacid esters and related species have been prepared by reaction of chlorocarbonyl ferrocene with the corresponding amino acid ester (histidine methyl ester, tryptophan methyl ester, methionine methyl ester and lysine ethyl ester) or histamine or prolinamide in the presence of NEt(3). The reaction of the tryptophan or prolinamide ferrocene conjugates with [Au(acac)(PR(3))] (acac=acetylacetonate) results in the substitution of the proton of the cyclic NH groups by the fragment AuPR(3)(+) affording the complexes [Au(FcCO-tryptophan-OMe)(PR(3))] or [Au(FcCO-prolinamide)(PR(3))] (Fc=ferrocenyl group). The reaction of FcCO-Met-OMe with [Au(OTf)(PR(3))] (OTF=trifluoromethysulfonate) or [Au(C(6)F(5))(3)(OEt(2))] yields the gold(I) or gold(III) derivatives [Au(FcCO-Met-OMe)(PR(3))]OTf or [Au(C(6)F(5))(3)(FcCO-Met-OMe)], respectively. Cytotoxicity studies towards several cancer lines such as MCF-7, HeLa or NIE-115 have been performed. The ferrocene bioconjugates show no activity whereas the gold complexes exhibit antiproliferative effect. Preliminary studies of interaction of compounds with cells were carried out with the goal of increasing our knowledge on the mechanism of action of these potential drugs.

Synthesis and characterization of new copper- and zinc-chloroquine complexes and their activities on respiratory burst of polymorphonuclear leukocytes.

The metal-chloroquine (CQ) complexes, Cu(CQ)2Cl (1), Cu(CQ)(PPh3)(NO3) (2), [Cu(OAc)2(CQ)]2 (3) ZnCl2(CQ)(H2O)2 (4), [Zn(OAc)2(CQ)(H2O)]2 (5), were synthesized and characterized by NMR, FAB-mass, elemental analysis, and UV-Vis, EPR and IR spectroscopies. The effects of these compounds on the generation of reactive oxygen species (ROS) from human neutrophils (PMNs) were tested in the concentration range 1-100 microM and compared to that of chloroquine. The data show that the copper-chloroquine complexes 1-3 inhibit neutrophil release of ROS in PMNs activated either by a phorbol ester or by phagocytosable particles. Both effects were dose-dependent, with an IC50 of approximately 10 microM. With the same stimulants, there was only modest inhibition of ROS generation by any of the zinc-chloroquine complexes 4-5 at 10-100 microM. All complexes did not show significant in vitro toxicity as assayed by the trypan blue exclusion method. Our results reinforce previous observations that many metal derivatives of anti-inflammatory drugs affect neutrophil functions with higher potency than their parent ligands.