Development of ruthenium-based complexes as anticancer agents: toward a rational design of alternative receptor targets

Adeniyi, Adebayo A.; Ajibade, Peter A.

doi:10.1515/revic-2015-0008

Cited by 15 publications

(6 citation statements)

References 261 publications

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“…Among of these ruthenium compounds, [(η 6 -cymene)RuCl 2 ] 2 [ 19 ] and RuHCl(CO)(PPh 3 ) 3 [ 20 ] are two important starting materials for synthesizing corresponding ruthenium compounds due to their versatile applications [ 21 , 22 , 23 , 24 ]. Pyrrole represents an important heterocyclic compound for forming materials such as hemes and porphyrinc [ 25 , 26 ], ion-receptors [ 27 , 28 ], bio-active products [ 29 , 30 , 31 ], and light-harvesting pigments [ 32 ], etc.…”

Section: Introductionmentioning

confidence: 99%

Structural Determination of Ruthenium Complexes Containing Bi-Dentate Pyrrole-Ketone Ligands

Chen

et al. 2018

Molecules

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A series of ruthenium compounds containing a pyrrole-ketone bidentate ligand, 2-(2′-methoxybenzoyl)pyrrole (1), have been synthesized and characterized. Reacting 1 with [(η6-cymene)RuCl2]2 and RuHCl(CO)(PPh3)3 generated Ru(η6-cymene)[C4H3N-2-(CO-C6H4-2-OMe)]Cl (2) and {RuCl(CO)(PPh3)2[C4H3N-2-(COC6H4-2-OMe)]} (3), respectively, in moderate yields. Successively reacting 2 with sodium cyanate and sodium azide gave {Ru(η6-cymene)[C4H3N-2-(CO-C6H4-2-OMe)]X} (4, X=OCN; 5, X=N3) with the elimination of sodium chloride. Compounds 2–5 were all characterized by 1H and 13C-NMR spectra and their structures were also determined by X-ray single crystallography.

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Section: Introductionmentioning

confidence: 99%

Structural Determination of Ruthenium Complexes Containing Bi-Dentate Pyrrole-Ketone Ligands

Chen

et al. 2018

Molecules

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“…Afterwards, characterization of the anticancer activity and toxicity in vivo of compounds that showed promising results in vitro, is fundamental to their further development (64). A number of in vivo studies have discovered that Ru(II) complexes exhibited anti-cancer activities comparable to, or even better than cisplatin, but with significantly less toxicity and side effects than cisplatin (65)(66)(67)(68)(69)(70)(71)(72)(73)(74)(75)(76). Weiss et al synthesized ruthenium complex, [Ru(h 6 -pcymene)Cl 2 (pta)], where pta = 1,3,5-triaza-7-phosphaadaman tane (RAPTA-C).…”

Section: Ru(ii) Complexes Which Entered Preclinical and Clinical Trialsmentioning

confidence: 99%

Ruthenium(II) Complexes as Potential Apoptosis Inducers in Cancer Therapy

Zarić

Pirković

Hamzagic³

2024

Experimental and Applied Biomedical Research (EABR)

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The compound cis-diamminedichloroplatinum(II) (cisplatin) is the most widely used anticancer drug, but due to its serious side effects (including gastrointestinal symptoms, renal tubular injury, neuromuscular complications, and ototoxicity), clinical applications of cisplatin are limited. Therefore, these limitations have provided an encouragement for further research into other transition metal complexes, with an aim to overcome the disadvantages related with cisplatin therapy. In the search for effective complexes that can be targeted against tumor cells, many research groups synthesized various ruthenium( II) complexes with different ligands. Also, newly synthesized ruthenium(II) complexes showed selective anticancer activity against different types of cancer cells. Activity of ruthenium(II) complexes in some cases was even higher than that of cisplatin against the same cells. Precise mechanism of action of ruthenium(II) complexes is not fully understood. The different examples mentioned in this review showed that ruthenium(II) complexes decreased viability of cancer cells by induction of apoptosis and/or by cell cycle arrest which implies their different mechanism of action against different types of cancer cells.

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“…[86][87][88] Recent research on the coordination polymers of Ru II -organosulfur compounds having benzoate group combine with sulfinate functions; their synthesis utilising RuCl 3 •3H 2 O and dtdb [2,2′-dithiodibenzoic acid], and arrangements of atoms and groups inside the polymer and chemical behaviour were described. 89 Such ruthenium sulfur compounds and their derivatives being the member of heavier platinum group metals, are found to be active component to show the in vitro cytotoxicity [90][91][92] and can become active precursor for the anticancer drug design [93][94][95] in the field of biological applications because of these components are lesser toxic for remaining healthy part of the body. 96…”

Section: Bioactivity and Bio-application Of Ru-s-oxygenatesmentioning

confidence: 99%

Sulfur-center Reactivity toward Oxygenation Mediated by Ruthenium: Effective Bioactive Compounds (A Review)

Das¹

2022

Orient. J. Chem

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Transition metal mediated thiolato compounds are highly vulnerable for S-centered oxidation due to its high nucleophilicity and which is immensely important in the point of its bio-activity. It is generally noticeable that a range of chemical changes occurred with molecular O2 and ruthenium thiolato metalloligands in varying conditions. These oxygenations are facile under strictly oxygen environment and produce mono and di sulfenato and/or sulfinato depending on the substrate thiolato. The numerous heteroatomic substituents of thiolato-S ligand have performed a vital task during the course of oxygenation producing oxygenated products as sulfenates, sulfinates and sulfones. There appear to be numerous mechanisms that are involved in the oxygenation process are considerably more complex. Some bizarre photo-induced S-center oxygenation of metal-thiolato to the sulfonated compound is also mentioned. The ruthenium sulfur compounds jointly with the S-oxygenates show remarkable bioactivity as well as enzymatic catalytic activity and interaction with the bio-molecules like DNA that opens a new theme for the researcher for design novel Ru-sulfur-oxygenates compounds as metallodrugs.

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Development of ruthenium-based complexes as anticancer agents: toward a rational design of alternative receptor targets

Cited by 15 publications

References 261 publications

Structural Determination of Ruthenium Complexes Containing Bi-Dentate Pyrrole-Ketone Ligands

Structural Determination of Ruthenium Complexes Containing Bi-Dentate Pyrrole-Ketone Ligands

Ruthenium(II) Complexes as Potential Apoptosis Inducers in Cancer Therapy

Sulfur-center Reactivity toward Oxygenation Mediated by Ruthenium: Effective Bioactive Compounds (A Review)

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