P. Mura scite author profile

A novel "Keppler type" ruthenium(III) compound trans-[bis(2-amino 5-methylthiazole)tetrachlororuthenate(III)] 1, of potential interest as an anticancer agent, was designed, synthesized, and characterized. Its interactions with various proteins were analyzed, including the selenoenzyme thioredoxin reductase, an emerging target for anticancer metallodrugs. The selective inhibition of the cytosolic form of this selenoenzyme was documented, this being the first report of significant thioredoxin reductase inhibition by a ruthenium compound.

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Synthesis, Structural Characterization, Solution Chemistry, and Preliminary Biological Studies of the Ruthenium(III) Complexes [TzH][trans-RuCl₄(Tz)₂] and [TzH][trans-RuCl₄(DMSO)(Tz)]·(DMSO), the Thiazole Analogues of Antitumor ICR and NAMI-A

Mura

Camalli

Messori

et al. 2004

Inorg. Chem.

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Two ruthenium(III) complexes bearing the thiazole ligand, namely, thiazolium (bisthiazole) tetrachlororuthenate (I, TzICR) and thiazolium (thiazole, DMSO) tetrachlororuthenate (II, TzNAMI) were prepared and characterized. The crystal structures of both complexes were solved by X-ray diffraction methods and found to match closely those of the corresponding imidazole complexes. The behavior in aqueous solution of bothTzICR and TzNAMI was analyzed spectroscopically. The time-dependent spectrophotometric profiles resemble closely those of the related ICR and NAMI-A anticancer compounds, respectively. It is observed that replacement of imidazole with thiazole, a less basic ligand, produces a significant decrease of the ligand exchange rates in the case of the NAMI-like compound. The main electrochemical features of these ruthenium(III) thiazole complexes were determined and compared to those of ICR and NAMI-A. Moreover, some preliminary data were obtained on their biological properties. Notably, both complexes exhibit higher reactivity toward serum albumin than toward calf thymus DNA; cytotoxicity is negligible in line with expectations. A more extensive characterization of the pharmacological properties in vivo is presently in progress.

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Synthesis, molecular structure and solution chemistry of the iridium(III) complex imidazolium [trans(bisimidazole)tetrachloro iridate(III)] (IRIM)

Mura¹,

Casini²,

Marcon³

et al. 2001

Inorganica Chimica Acta

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P. Mura

Activity of Rat Cytosolic Thioredoxin Reductase Is Strongly Decreased by trans-[Bis(2-amino-5- methylthiazole)tetrachlororuthenate(III)]: First Report of Relevant Thioredoxin Reductase Inhibition for a Ruthenium Compound

Synthesis, Structural Characterization, Solution Chemistry, and Preliminary Biological Studies of the Ruthenium(III) Complexes [TzH][trans-RuCl₄(Tz)₂] and [TzH][trans-RuCl₄(DMSO)(Tz)]·(DMSO), the Thiazole Analogues of Antitumor ICR and NAMI-A

Synthesis, molecular structure and solution chemistry of the iridium(III) complex imidazolium [trans(bisimidazole)tetrachloro iridate(III)] (IRIM)

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P. Mura

Activity of Rat Cytosolic Thioredoxin Reductase Is Strongly Decreased by trans-[Bis(2-amino-5- methylthiazole)tetrachlororuthenate(III)]: First Report of Relevant Thioredoxin Reductase Inhibition for a Ruthenium Compound

Synthesis, Structural Characterization, Solution Chemistry, and Preliminary Biological Studies of the Ruthenium(III) Complexes [TzH][trans-RuCl4(Tz)2] and [TzH][trans-RuCl4(DMSO)(Tz)]·(DMSO), the Thiazole Analogues of Antitumor ICR and NAMI-A

Synthesis, molecular structure and solution chemistry of the iridium(III) complex imidazolium [trans(bisimidazole)tetrachloro iridate(III)] (IRIM)

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Synthesis, Structural Characterization, Solution Chemistry, and Preliminary Biological Studies of the Ruthenium(III) Complexes [TzH][trans-RuCl₄(Tz)₂] and [TzH][trans-RuCl₄(DMSO)(Tz)]·(DMSO), the Thiazole Analogues of Antitumor ICR and NAMI-A