trans-Dichloro(triphenylarsino)(N,N-dialkylamino)platinum(II) Complexes: In Search of New Scaffolds to Circumvent Cisplatin Resistance

Hyeraci, Mariafrancesca; Agnarelli, Laura; Labella, Luca; Marchetti, Fabio; Paolo, Maria Luisa Di; Samaritani, Simona; Via, Lisa Dalla

doi:10.3390/molecules27030644

Cited by 5 publications

(7 citation statements)

References 46 publications

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“…Complexes with bromocatechol (32)(33)(34) showed good cytotoxic activity against MDA-MB-231 cells, which were independent of the cyclometalated ligand's nature. Complexes 29-31, possessing alizarine as a ligand, were studied as a mixture of the two isomers, showing a different form of cytotoxic activity that depends on a different CˆN ligand.…”

Section: Ionic Pt(ii) Complexesmentioning

confidence: 96%

“…Analogously to complexes 1a-e, trans-Pt(II) complexes with triphenylphosphine ligands have also been synthesized, and in particular, complexes 3 and 4 have been evaluated for their promising anticancer activities (Figure 4) [32]. Indeed, several analogs have been studied, starting with complexes 3 and 4, where a triphenylphosphine ligand was substituted with a triphenylarsine ligand (complexes 5 and 6) with the same dialkylamino ligand preserved, in addition to the two chloride ligands.…”

Section: Pt(ii) Complexes In Trans Conformationmentioning

confidence: 99%

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The Challenging Treatment of Cisplatin-Resistant Tumors: State of the Art and Future Perspectives

et al. 2023

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One of the main problems in chemotherapy using platinum drugs as anticancer agents is the resistance phenomenon. Synthesizing and evaluating valid alternative compounds is challenging. This review focuses on the last two years of progress in the studies of platinum (II)- and platinum (IV)-based anticancer complexes. In particular, the research studies reported herein focus on the capability of some platinum-based anticancer agents to bypass resistance to chemotherapy, which is typical of well-known drugs such as cisplatin. Regarding platinum (II) complexes, this review deals with complexes in trans conformation; complexes containing bioactive ligands, as well as those that are differently charged, all experience a different reaction mechanism compared with cisplatin. Regarding platinum (IV) compounds, the focus was on complexes with biologically active ancillary ligands that exert a synergistic effect with platinum (II)-active complexes upon reduction, or those for which controllable activation can be realized thanks to intracellular stimuli.

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Section: Ionic Pt(ii) Complexesmentioning

confidence: 96%

Section: Pt(ii) Complexes In Trans Conformationmentioning

confidence: 99%

The Challenging Treatment of Cisplatin-Resistant Tumors: State of the Art and Future Perspectives

et al. 2023

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“…In the context of our studies about platinum complexes with antiproliferative properties [1][2][3][4][5][6], we have been searching for new scaffolds to outline compounds capable of circumventing platinum resistance phenomena [7,8]. Among the complexes prepared, those bearing a triphenylphosphino ligand proved capable of affecting mitochondria, and their modes of action often proved effective on cisplatin resistant cell lines.…”

Section: Introductionmentioning

confidence: 99%

Dibromo–Isonitrile and N-acyclic Carbene Complexes of Platinum(II): Synthesis and Reactivity

et al. 2023

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A series of dibromo-N-acyclic (NAC) carbene complexes of platinum(II) were synthesized, starting from trans-[Pt(μ-Br)Br(PPh3)]2 and according to a protocol previously optimized for the preparation of analogous chlorinated compounds. In the first step of the synthesis, the ring opening of the dinuclear precursor was carried out using suitable isonitrile ligands, while the following step consisted of the addition of N,N-diethylamine to the products obtained in the first step. The two reactions were separately investigated, and attention was given to the differences between brominated and chlorinated systems.

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“…In recent years, we focused on the synthesis and biological studies of many platinumbased complexes endowed with antiproliferative properties [34][35][36][37][38][39][40][41][42]. Such investigations allowed us to conclude that the presence of a triphenylphosphine ligand can promote cell uptake and, in many cases, provide modes of action against cisplatin-resistant cancer cells.…”

Section: Introductionmentioning

confidence: 99%

“…Such investigations allowed us to conclude that the presence of a triphenylphosphine ligand can promote cell uptake and, in many cases, provide modes of action against cisplatin-resistant cancer cells. The trans-[PtCl 2 (PPh 3 )(L)] (L = N,N-dialkylamine) [36,42] and [PtCl(PPh 3 )(L∧L )] 2 of 11 (L∧L = chelating oxime ligand) [38,41] represent interesting examples of such complexes. More in detail, the mechanism of action of trans-[PtCl 2 (PPh 3 )(L)] (L = N,N-dialkylamine) was investigated [42] and the ability to interfere with the catalytic activity of topoisomerase II was evidenced.…”

Section: Introductionmentioning

confidence: 99%

Dibromo- and Dichlorotriphenylphosphino N-Acyclic Carbene Complexes of Platinum(II)—Synthesis and Cytotoxicity

Farasat,

Labella,

Di Paolo

et al. 2023

Inorganics

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Some new dichloro- and dibromotriphenylphosphino isonitrile and N-acyclic (NAC) carbene complexes of platinum(II) were synthesized, starting from suitable dinuclear precursors. The reaction of cyclohexylisonitrile with trans-[Pt(μ-X)X(PPh3)]2, followed by the addition of N,N-diethylamine afforded the corresponding N-acyclic carbene (NAC)derivatives cis-[PtX2(PPh3)(NAC)] in 61–64% isolated yield. The cis geometry was attributed based on the comparison with known structures. The stability of the complexes in pure DMSO, DMSO/H2O, and DMSO/NaClaq mixtures was evaluated. While pure DMSO, as well as DMSO/H2O, did not affect the nature of either dichloro- or dibromo-compounds, dibromo derivatives were not stable in the presence of chloride ions. Since a high concentration of chloride ions is essential to perform in vitro cell assays, only dichlorocomplexes were tested as cytotoxic agents against HepG2 and human tumor cells. Among the tested complexes, NAC derivatives showed a moderate effect on MSTO-211H.

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trans-Dichloro(triphenylarsino)(N,N-dialkylamino)platinum(II) Complexes: In Search of New Scaffolds to Circumvent Cisplatin Resistance

Cited by 5 publications

References 46 publications

The Challenging Treatment of Cisplatin-Resistant Tumors: State of the Art and Future Perspectives

The Challenging Treatment of Cisplatin-Resistant Tumors: State of the Art and Future Perspectives

Dibromo–Isonitrile and N-acyclic Carbene Complexes of Platinum(II): Synthesis and Reactivity

Dibromo- and Dichlorotriphenylphosphino N-Acyclic Carbene Complexes of Platinum(II)—Synthesis and Cytotoxicity

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