Michal Shavit scite author profile

We recently introduced a new class of bis(isopropoxo)-Ti(IV) complexes with diamine bis(phenolato) ligands that possess antitumor activity against colon HT-29 and ovarian OVCAR-1 cells that is higher than that of the known Ti(IV) compounds titanocene dichloride and budotitane as well as that of cisplatin. Herein, we elaborate on this family of compounds; we discuss the effect of structural parameters on the cytotoxic activity and hydrolytic behavior of these complexes, seeking a relationship between the two. Whereas complexes with small steric groups around the metal center possess high activity and lead mostly to formation of O-bridged polynuclear complexes with bound bis(phenolato) ligand upon water addition, bulky complexes hydrolyze to release all free ligands and are inactive. Slightly increasing the size of the N-donor substituents probably weakens the ligand binding in solution, and, thus, rapid hydrolysis is observed, leading to a lack of cytotoxicity, supporting the requirement for ligand inertness. Replacing the two isopropoxo ligands with a single catecholato unit gives a complex with a different geometry that exhibits slower hydrolysis and reduced cytotoxicity, suggesting some participation of labile ligand hydrolysis in the cytotoxicity mechanism. A crystallographically characterized O-bridged polynuclear species obtained from a biologically active bis(isopropoxo) complex upon water addition is inactive, which rules out its participation as the active species, yet suggests some role of the particular steric and electronic requirements allowing its formation in the activity mechanism. Additional measurements support rapid formation of the active species in the presence of cells prior to O-bridged Ti(IV) cluster formation.

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Active Cytotoxic Reagents Based on Non-metallocene Non-diketonato Well-Defined C₂-Symmetrical Titanium Complexes of Tetradentate Bis(phenolato) Ligands

Shavit

et al. 2007

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A new family of non-Cp-based non-diketonato-based C 2-symmetrical octahedral Ti(IV) complexes of dianionic diamine bis(phenolato) ligands, which are conveniently obtained as single isomers in quantitative yields, leads to appreciable cytotoxicity against colon and ovarian cells with a non-transferrin-dependent cell penetration mechanism. The ligand structural features including steric demands, symmetry, and aromaticity strongly influence activity, supporting its role in the biological mechanism of action.

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Antitumor reactivity of non-metallocene titanium complexes of oxygen-based ligands: is ligand lability essential?

et al. 2007

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In our attempt to define the parameters affecting anticancer activity of titanium complexes and to assess the role of hydrolytic stability, titanium compounds of oxygen-based ligands were studied. A homoleptic complex of hydroxyamino-1,3,5-triazine ligands was prepared and its hydrolysis was investigated by UV-vis spectroscopy at biologically relevant pH and temperature conditions based on its ligand to metal charge transfer absorption band. This complex exhibits very high hydrolytic stability under the conditions measured with negligible ligand dissociation. Its anticancer reactivity was investigated on ovarian OVCAR-1 and colon HT-29 cells, in comparison with the reference highly labile Ti(OiPr)(4) and TiCl(4)(THF)(2) (where THF is tetrahydrofuran), the inert thermodynamically stable TiO2, and the free aromatic hydroxyamino-1,3,5-triazine ligand. Whereas all reference titanium complexes were found to be completely unreactive against both tumor cell types, suggesting some moderate inertness is required, the homoleptic complex of the triazine ligands clearly possess some mild reactivity despite having no labile groups, and despite its incomplete solubility in the concentrations applied. As the free aromatic ligand is highly active under similar conditions, detailed time-dependence measurements were conducted and indicated that the cytotoxicity of the ligand is more affected by reducing incubation time, and that introducing the titanium complex to the medium prior to cell administration does not increase reactivity at a certain incubation time. These findings suggest that the reactivity of the complex does not result from that of the free ligand following dissociation, but rather involves the titanium center.

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Ti^IV Complexes of Branched Diamine Bis(phenolato) Ligands: Hydrolysis and Cytotoxicity

et al. 2011

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Six TiIV complexes of branched diamine bis(phenolato) ligands that feature a pendant donor side arm with different aromatic and N-substitutions were synthesized and their hydrolytic stability and cytotoxicity were investigated as closely related analogues to the highly active and stable salan Ti IV complexes [salan = N, . Although the C s -symmetrical complexes include binding of the side-arm N donor to the metal as analyzed crystallographically, thus making them highly similar in coor-

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Structural characterization of dinuclear Ti(IV) complexes of rigid tetradentate dianionic diamine bis(phenolato) ligands; effect of steric bulk on coordination features

Manna¹,

Shavit²,

Tshuva³

2008

Journal of Organometallic Chemistry

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Michal Shavit

Synthesis, Characterization, Cytotoxicity, and Hydrolytic Behavior of C₂‐ and C₁‐Symmetrical Ti^IV Complexes of Tetradentate Diamine Bis(Phenolato) Ligands: A New Class of Antitumor Agents

Active Cytotoxic Reagents Based on Non-metallocene Non-diketonato Well-Defined C₂-Symmetrical Titanium Complexes of Tetradentate Bis(phenolato) Ligands

Antitumor reactivity of non-metallocene titanium complexes of oxygen-based ligands: is ligand lability essential?

Ti^IV Complexes of Branched Diamine Bis(phenolato) Ligands: Hydrolysis and Cytotoxicity

Structural characterization of dinuclear Ti(IV) complexes of rigid tetradentate dianionic diamine bis(phenolato) ligands; effect of steric bulk on coordination features

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Michal Shavit

Synthesis, Characterization, Cytotoxicity, and Hydrolytic Behavior of C2‐ and C1‐Symmetrical TiIV Complexes of Tetradentate Diamine Bis(Phenolato) Ligands: A New Class of Antitumor Agents

Active Cytotoxic Reagents Based on Non-metallocene Non-diketonato Well-Defined C2-Symmetrical Titanium Complexes of Tetradentate Bis(phenolato) Ligands

Antitumor reactivity of non-metallocene titanium complexes of oxygen-based ligands: is ligand lability essential?

TiIV Complexes of Branched Diamine Bis(phenolato) Ligands: Hydrolysis and Cytotoxicity

Structural characterization of dinuclear Ti(IV) complexes of rigid tetradentate dianionic diamine bis(phenolato) ligands; effect of steric bulk on coordination features

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Product

Resources

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Synthesis, Characterization, Cytotoxicity, and Hydrolytic Behavior of C₂‐ and C₁‐Symmetrical Ti^IV Complexes of Tetradentate Diamine Bis(Phenolato) Ligands: A New Class of Antitumor Agents

Active Cytotoxic Reagents Based on Non-metallocene Non-diketonato Well-Defined C₂-Symmetrical Titanium Complexes of Tetradentate Bis(phenolato) Ligands

Ti^IV Complexes of Branched Diamine Bis(phenolato) Ligands: Hydrolysis and Cytotoxicity