Ruthenium(II)-N-alkyl phenothiazine complexes as potential anticancer agents

Leskovac, Andreja; Petrović, Suzana; Lazarević‐Pašti, Tamara; Krstić, Marija; Vasić, Vesna

doi:10.1007/s00775-018-1560-x

Cited by 11 publications

(3 citation statements)

References 80 publications

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“…The complexes were able to bind to the dopamine receptors D2À eGFP and may act as potential against cancer cells overexpressing D2. [112]…”

Section: Phenothiazine Derivatives As Anticancer Agentsmentioning

confidence: 99%

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Anticancer Potential of the S‐Heterocyclic Ring Containing Drugs and its Bioactivation to Reactive Metabolites

Maji,

Debnath,

Panda

et al. 2024

Chemistry & Biodiversity

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Sulfur‐containing heterocyclic derivatives have been disclosed for binding with a wide range of cancer‐specific protein targets. Various interesting derivatives of sulfur‐containing heterocyclics such as benzothiazole, thiazole, thiophene, thiazolidinedione, benzothiophene, and phenothiazine, etc have been shown to inhibit diverse signaling pathways implicated in cancer. Significant progress has also been made in molecular targeted therapy against specific enzymes such as kinase receptors due to potential binding interactions inside the ATP pocket. Sulfur‐containing heterocyclic ring metal complexes i.e., benzothiazole, thiazole, thiophene, benzothiophene and phenothiazines are among the most promising active anticancer compounds. However, sulfur heteroaromatic rings, particularly thiophene, are of high structural alert due to their metabolism to reactive metabolites. The mere presence of a structural alert itself does not determine compound toxicity therefore, this review focuses on some specific findings that shed light on factors influencing the toxicity. In the current review, synthetic strategies of introducing the sulfur core ring in the synthesized derivatives are discussed with their structure‐activity relationships to enhance our understanding of toxicity mechanisms and develop safer therapeutic options. The sulfur‐containing marketed anticancer drugs included in this review direct the synthesis of novel compounds and will help in the development of potent, safer sulfur‐based anticancer drugs in near future.

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“…The complexes were able to bind to the dopamine receptors D2À eGFP and may act as potential against cancer cells overexpressing D2. [112]…”

Section: Phenothiazine Derivatives As Anticancer Agentsmentioning

confidence: 99%

“…The complexes were also tested against PC12 and U2OS cancer cells expressing D2 receptors. The complexes were able to bind to the dopamine receptors D2−eGFP and may act as potential against cancer cells overexpressing D2 [112] …”

Section: Design Strategies Synthesis and Structure‐activity Relations...mentioning

confidence: 99%

Anticancer Potential of the S‐Heterocyclic Ring Containing Drugs and its Bioactivation to Reactive Metabolites

Maji,

Debnath,

Panda

et al. 2024

Chemistry & Biodiversity

View full text Add to dashboard Cite

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“…Rigid cores in the transition metal complexes generally are formed by heterocyclic units with five-or six-membered rings containing nitrogen, oxygen or sulphur and carbon such as phenothiazine (PTZ) rings that is a complete example with their elements mentioned as shown in Figure 1. On the other hand, this type of rigid structure allows great potential for nonlinear optical materials, [1][2][3] optoelectronics and sensors, [3][4][5][6] photovoltaics, [7][8][9] energy storage, [10][11][12] catalysis, [13][14][15] medical imaging, [16][17][18] antimicrobial 19,20 and antiviral 21 activity and therapy [22][23][24] for academic and technological view.…”

Section: Introductionmentioning

confidence: 99%

Spectroscopic and electrochemical characterizations of copper complexes with thionine, azure C and azure A

Bayındır,

Ersin,

Nazır

et al. 2024

Applied Organom Chemis

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Structures held together by secondary interactions such as intramolecular or intermolecular hydrogen bonding, electrostatic and π–π interaction without covalent bonds can exhibit new properties such as high orientation, optoelectronics, biocompatibility and reversibility (self‐renewal). Recently, interest has been growing surrounding novel molecules fashioned through non‐covalent interactions. These molecules have garnered attention due to their significant roles in both physical and chemical applications. However, the formation of complexes between cationic phenothiazine derivative dyes, commonly employed in electrochemical studies, and diverse metal groups presents a challenge. Therefore, the existing literature contains only a scant number of studies concerning the formation of phenothiazine complexes with metal salts. In this study, metal complexes of thionine, azure C and azure A with copper(II) chloride were prepared using two steps: dissolving and then slow evaporation of dyes‐copper(II) chloride in acetonitrile. Besides the theoretical computations, thermal, spectral, electrochemical and fluorescence techniques were performed to determine the characteristics of the monoclinic crystals of Cu–dyes complexes. Cl− ion in the dyes and copper(II) chloride conjugated to form [CuCl3]−, then this anion electrostatically bound to cationic phenothiazine ring bond to be phenothiazine+[CuCl3]−. Cu–dye complexes showed interestingly high electron transportation. In addition, prepared Cu–dye complexes have a great potential to be used in optical and spectral applications with extraordinary behaviour of their spectral and fluorescence features.

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Prospective Application of Natural and Synthetic Redox Modulators in Oxidative Stress-Targeted Cancer Therapy

Petrović¹,

Leskovac²

2021

Handbook of Oxidative Stress in Cancer: Mechanistic Aspects

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Ruthenium(II)-N-alkyl phenothiazine complexes as potential anticancer agents

Cited by 11 publications

References 80 publications

Anticancer Potential of the S‐Heterocyclic Ring Containing Drugs and its Bioactivation to Reactive Metabolites

Anticancer Potential of the S‐Heterocyclic Ring Containing Drugs and its Bioactivation to Reactive Metabolites

Spectroscopic and electrochemical characterizations of copper complexes with thionine, azure C and azure A

Prospective Application of Natural and Synthetic Redox Modulators in Oxidative Stress-Targeted Cancer Therapy

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