L. Pellerito

Organotin(IV)n+ complexes formed with biologically active ligands: equilibrium and structural studies, and some biological aspects

Abstract The organotin(IV) cations form complexes with ligands containing {O}, {N}, {S}, or {phosphorus(O)} donor atoms with various composition and stability. The emergence of new experimental techniques (EXAFS, multinuclear 1 H-, 13 C-, 119 Sn-NMR, 119 Sn Mossbauer, etc., spectroscopic techniques) provided useful information about the structure and stabilities of the complexes formed. We reviewed the literature on these type of complexes taking into account the biological aspects of the complexes discussed.

Tributyltin affects phagocytic activity of Ciona intestinalis hemocytes

Organotin compounds have been used in marine anti-fouling paints as biocides. Because tunicates are vulnerable to these compounds in their natural habitats, we used Ciona intestinalis to establish an assay for phagocytosis in vitro of yeast by hemocytes after exposure to different concentrations (0.0015, 0.015, 0.15 and 1.5 microM) of four organotin compounds: tributyltin (TBT), triphenyltin (TPT), dibutyltin (DBT) and diphenyltin (DPT). To evaluate the phagocytic activity, we used a method based on fluorescence excitation of yeast pre-treated with eosin-Y. The percentage of phagocytosis decreased from 45.1 +/- 3.49 to 22.4 +/- 5.14 at 1.5 microM of TBT (P < 0.001); it was significantly reduced in presence of the ionophore A23187. TPT, DPT and DBT did not show significant effects on phagocytosis. Because the effect of TBT was irreversible, differences between the inhibitory mechanisms of ionophore and TBT are suggested. These results indicate that for future analyses, tunicates should become excellent models for dissecting events such as phagocytosis that are associated with immunosuppression after exposure to xenobiotics.

Organometallic complexes with biological molecules. X: dialkyltin(IV) and trialkyltin(IV) orotates: spectroscopic and in vivo investigations

Several novel diorgano- and triorgano-tin(IV) derivatives of orotic acid, (2,6-dihydroxypyrimidine-4-carboxylic acid; H 3 or) have been synthesized. In the diorganotin(IV) derivatives, the orotic acid behaved either as a monoanionic or as a dianionic ligand, yielding R 2 Sn(H 2 or) 2 and R 2 SnHor (R = Me, Bu) species, respectively, while in the triorganotin(IV) orotates only monodeprotonation of the orotic acid occurred, giving R 3 SnH 2 or (R = Me, Bu) derivatives. Structural hypotheses are proposed and discussed for the solid state based on Mossbauer and IR spectroscopic data, and for solution on 1 H and 1 C NMR results. Finally, investigations have been carried out in vivo, showing the inhibitor properties of all of the newly synthesized derivatives towards Ciona intestinalis embryos. In particular, in order to test the cytotoxicity in vivo of Me 2 SnHor, Bu 2 SnHor, Me 3 SnH 2 or and Bu 3 SnH 2 or, exposure to these chemicals of C. intestinalis embryos at the 2-4-blastomere stage has been studied. The compound which exerts the highest cytotoxic effect is Bu 3 SnH 2 or at 10 5 M concentration because it blocks embryo development immediately. Me 3 SnH 2 or at 10 -5 M concentration inhibits cell cleavage in the embryos at the 32-blastomere stage, while Bu 2 SnHor at the same concentration gives rise to abnormal embryos. Me 2 SnHor, is less toxic than the trimethyl, dibutyl and tributyl analogues, since 40% of the total number of treated embryos resulted in normal larvae. The ligand does not affect embryonic development significantly. The results seem to indicate that the chemical species under investigation, especially Bu 3 Sn-H 2 or, interfere with polymerization of tubulin during the process of cell division in early embryo development.

Complexes of organometallic compounds XXVIII. The solution chemistry of bis(acetylacetone)ethylenediimine adducts of organotin(IV) halides

Abstract The nature of methanol solutions of a series of bis(acetylacetone)ethylenediimine adducts of organotin(IV) halides has been studied by electronic and PMR spectroscopy and by osmometry and conductivity. Effectively complete dissociation to the free ligand and solvated organotin(IV) halide moieties is inferred.

Thermal behaviour, 119Sn Mössbauer and IR spectroscopic studies of some diorganotin(IV)carbohydrates

The synthesis of diorganotincarbohydrates {R2SnL [R = Me, Bu or Oct; L = aldotetrose (erythrose), aldopentoses (arabinose or ribose), ketohexoses (fructose or sorbose), aldohexoses (galactose or glucose) or 6-deoxyaldohexose (rhamnose)]} is reported. Ir and 119Sn Mossbauer spectra are consistent with the presence of tin-carbohydrate oxygen bonds in the compounds and with a trigonal bipyramidal arrangement of two alkyl and three O-containing groups about the tin atoms. The thermal decomposition of the compounds is shown to fall into one of three categories, viz: (1) aldose derivatives that decompose without melting to give SnO as the final tin-containing product, (2) ketose derivatives that decompose without melting to give SnO2 as the final tin-containing product, and (3) aldose derivatives that melt and then decompose to give either SnO or SnO2.

Mössbauer spectroscopy of mono-organotin(IV) derivatives

Abstract The Mossbauer parameters isomer shift, δ, and quadrupole splitting, ΔE, of mono-organotin compounds insofar investigated have been collected and tabulated. It is demonstrated that isomer shifts consistently depend on ligand electronegativities and coordination numbers, from which it is deduced that RSn IV behave much more as Sn IV rather than R 2 Sn IV and R 3 Sn IV derivatives. The changes of δ for RSn IV are then interpreted by hypotheses analogous to those advanced for Sn IV and its adducts and complexes. It is also inferred that in RSn IV compounds there is a consistent s-character in all tin-ligand atom bonds.

Molecular basis of the interaction of novel tributyltin(IV) 2/4-[(E)-2-(aryl)-1-diazenyl]benzoates endowed with an improved cytotoxic profile: Synthesis, structure, biological efficacy and QSAR studies

A series of tributyltin(IV) complexes based on 2/4-[(E)-2-(aryl)-1-diazenyl]benzoate ligands was synthesized, wherein the position of the carboxylate and aryl substituents (methyl, tert-butyl and hydroxyl) varies. The complexes, Bu(3)SnL(1-4)H (1-4), have been structurally characterized by elemental analysis and IR, NMR ((1)H, (13)C, and (119)Sn) and (119)Sn Mössbauer spectroscopy. All have a tetrahedral geometry in solution and a trigonal bipyramidal geometry in the solid-state, except for Bu(3)SnL(4)H (4) that was ascertained to have tetrahedral coordination by X-ray crystallography. Cytotoxicity studies were carried out on human tumor cell lines A498 (renal cancer), EVSA-T (mammary cancer), H226 (non-small-cell lung cancer), IGROV (ovarian cancer), M19 MEL (melanoma), MCF-7 (mammary cancer) and WIDR (colon cancer). Compared to cisplatin, test compounds 1-4 had remarkably good activity, despite the presence of substantial steric bulk due to Sn-Bu ligands. The quantitative structure-activity relationship (QSAR) studies for the cytotoxicity of organotin(IV) benzoates, along with some reference drug molecules, is also discussed against a panel of human tumor cell lines. Molecular structures of the tributyltin(IV) complexes (1-4) were fully optimized using the PM6 semi-empirical method and docking studies performed with key enzymes associated with the propagation of cancer, namely ribonucleotide reductase, thymidylate synthase, thymidylate phosphorylase and topoisomerase II. The theoretical results are discussed in relation to the mechanistic role of the cytotoxic active test compounds (1-4).

Complexes of organometallic compounds : XXXIX. synthesis, infrared and mössbauer studies on monoorganotin(IV) complexes with tridentate ligands

Abstract Novel complexes RClSntrid, where R is Me, Ph, n-Oct, and trid 2− are dianions of tridentate “planar” ligands with ONO and SNO donor atoms, were synthesized and investigated in the solid state by infrared and Mossbauer spectroscopy. Possible configurations are discussed; polymeric trigonal bipyramidal structures seem to occur, although five-coordinated monomers as well as octahedral dimers (via oxygen or sulfur bridges) are not excluded.

Characterization of diorganotin(IV) complexes with captopril. The first crystallographically authenticated metal complex of this anti-hypertensive agent.

Diorganotin(IV) complexes R(2)Sn(cap) (capH(2)=N-[(S)-3-mercapto-2-methylpropionyl]-L-proline; R=Me, Et, n-Bu and t-Bu) were prepared and characterised. The FTIR and Raman spectra demonstrated that the organotin(IV) moieties interact with the [S] atom of the ligand, while the other coordination sites are the carboxylate and the amide -CO groups. Mössbauer Delta data showed that the diorganotin(IV) compounds adopt slightly distorted trigonal-bipyramidal (tbp) geometry. A single-crystal X-ray study was performed on the compound Me(2)Sn(cap): the Sn atom is five-coordinated in a distorted tbp environment, with two [O] atoms in the axial positions and the [S] and two [C] atoms in the equatorial (eq) plane. Each cap ligand coordinates to two different Sn atoms, and infinite zigzag chains are formed, directed parallel to each other and to the b axis of the unit cell. NMR (CDCl(3)) of the Me(2)Sn(IV) and n-Bu(2)Sn(IV) complexes indicated the presence of different oligomeric species.

Organometallic complexes with biological molecules. XI. Solid state and in vivo investigations of some diorganotin(IV)-chloramphenicol and cycloserine derivatives

Abstract Diorganotin(IV) derivatives of chloramphenicol, {=D-(-)threo-2,2-dichloro-N-[ β -hydroxy- α -(hydroxymethyl)- β -(4-nitrophenyl)ethyl]acetamide (=Hchloramph)}, and D-cycloserine, {=(R)-4-amino-3-isoxazolidone [=Hcyclos]} have been prepared. The stoichiometries of the obtained compounds were R 2 SnClantib and R 2 Snantib 2 (antib −1 =chloramph −1 , R=methyl and phenyl; antib −1 =cyclos −1 , R=methyl). The solid state configuration of the complexes was investigated by I.R. and Mossbauer spectroscopy, from which structural hypotheses were inferred. In particular, the experimental data suggested monomer structures both for R 2 Sn(IV)Clchloramph and R 2 Sn(IV)chloramph 2 , in which chloramphenicolate anion behaved as monoanionic monodentate ligand through the oxygen atom of the deprotonated secondary alcoholic group, with formation of tetrahedral R 2 SnOCl and R 2 SnO 2 environments. In R 2 Sn(IV)Clcyclos and R 2 Sn(IV)cyclos 2 derivatives, Mossbauer spectroscopy, and in particular the narrowness of the full width at half height of the resonant peaks, Γ 1 and Γ 2 , suggested the occurrence of two different absorbing tin sites with different environments around the tin(IV) atoms. According to calculations performed by applying the point charge model formalism, one site was constituted by a tin(IV) tetrahedrically coordinated by monoanionic monodentate cycloserinate groups, through the oxygen atom of the resonance stabilised hydroxamate anion, originating R 2 SnClO and R 2 SnO 2 polyhedrons both in R 2 Sn(IV)Clcyclos and R 2 Sn(IV)cyclos 2 , respectively. The second site would correspond to a tin(IV) in a polymeric octahedral configuration with Me 2 SnCl 2 ON and Me 2 SnO 2 N 2 environments, in Me 2 Sn(IV)Clcyclos and Me 2 Sn(IV)cyclos 2 derivatives, respectively, in which the second donor atoms was the amino nitrogen atom. 1 H and 13 C NMR spectra, of both chloramphenicol and its diorganotin(IV) derivatives were carried in DMSO-d 6 solution, in which R 2 Sn(IV)Clchloramph and R 2 Sn(IV)chloramph 2 underwent total, (R=Me), or partial, (R=Ph), dissociation. As far as the organotin(IV)-D-cycloserine derivatives were concerned, 1 H and 13 C NMR spectra, also carried out for the free D-cycloserine, showed that, owing to the coordinating properties of the solvent, octahedral and trigonal bipyramidal isomers were present in DMSO solution of Me 2 Sn(IV)Clcyclos and Me 2 Sn(IV)cyclos 2 . Finally, the cytotoxic activity of the free chloramphenicol, D-cycloserine and of their dimethyltin(IV) derivatives has been investigated towards Ciona intestinalis and Ascidia malaca fertilised eggs, at different developing stages.