Biological Investigations of Ru(II) Complexes with Diverse β‐Diketone Ligands

Ryan, Raphael T.; Havrylyuk, Dmytro; Moore, L. Henry; Parkin, Sean; Blackburn, Jessica S.; Heidary, David K.; Selegue, John P.; Glazer, Edith C.

doi:10.1002/ejic.202100468

Cited by 9 publications

(11 citation statements)

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“…36 Similarly, other studies on bpy-based Ru complexes with similar acacbased ligands showed higher toxicity compared to our complexes when tested against cancerous cell lines like HL60, MIA PaCa-2, and DU-145 cells, but no studies regarding selectivity of these complexes toward cancerous vs non-cancerous cell lines have been mentioned by the authors. 39 Reports on cancer cell selectivity have also not been reported with Ru(II) polypyridyl complexes containing acac-based ligand curcumin and Ru(II) polypyridyl complexes containing D-glucose and D-fructose conjugated acac-based ligands. 37,38 Therefore, we can say that complex 1 is currently the only known acac-based Ru polypyridyl complex, which shows selectivity for a cancerous vs normal cell line.…”

Section: ■ Discussionmentioning

confidence: 99%

“…Ru(II) complexes with the general formula [Ru(bpy) 2 (L)] + , where bpy = 2,2′-bipyridine and L is a diverse array of κ 2 -O-O′ chelating β-diketone ligands including acetylacetonate (acac), showed nanomolar potency against DU-145 cells (human prostate cancer) and MIA PaCa-2 cells (human pancreatic cancer). 39 In vivo toxicity of these complexes was evaluated in a zebrafish model, where data indicated that most complexes were nontoxic in vivo. Curcumin (a type of κ 2 -O-O′ chelating β-diketone ligand)based polypyridyl Ru(II) complexes with formulae [Ru-(bpy) 2 (curcumin)] + and [Ru(bpy)(dppn)(curcumin)] + , where dppn = benzo[i]dipyrido[3,2-a:2′,3′-c]phenazine, showed single-digit micromolar potency against A549, MCF-7, and SGC7901 cell lines.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Ru(II) polypyridyl complexes with different types of dioxo ligands have shown promise as potential anticancer agents. − Among those Ru(II) polypyridyl complexes, analogues with acetylacetonate-based ligands have been particularly active. Ru(II) complexes with the general formula [Ru(bpy) 2 (L)] + , where bpy = 2,2′-bipyridine and L is a diverse array of κ 2 -O-O′ chelating β-diketone ligands including acetylacetonate (acac), showed nanomolar potency against DU-145 cells (human prostate cancer) and MIA PaCa-2 cells (human pancreatic cancer) …”

Section: Introductionmentioning

confidence: 99%

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Ru(II)-Based Acetylacetonate Complexes Induce Apoptosis Selectively in Cancer Cells

et al. 2021

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The synthesis, chemical and biological characterization of seven Ru(II) polypyridyl complexes containing acetylacetonate (acac) ligands are reported. Electronic absorption spectra were determined and electrochemical potentials consistent with Ru(III/II) couples ranging from +0.60 to +0.73 V vs Ag/AgCl were measured. A series of complexes were screened against MDA-MB-231, DU-145, and MCF-10A cell lines to evaluate their cytotoxicities in cancer and normal cell lines. Although most complexes were either nontoxic or equipotent in cancer cells and normal cell lines, compound 1, [Ru(dpqy)(acac)(py)](PF6), where dqpy is 2,6-di(quinolin-2-yl)pyridine, showed up to 2.5:1.0 selectivity for cancer as compared to normal cells, along with nanomolar EC50 values in MDA-MB-231 cells. Lipophilicity, determined as the octanol/water partition coefficient, log P o/w, ranged from −0.33 (0.06) to 1.15 (0.10) for the complexes. Although cytotoxicity was not correlated with electrochemical potentials, a moderate linear correlation between lipophilicity and toxicities was observed. Cell death mechanism studies indicated that several of the Ru–acac compounds, including 1, induce apoptosis in MDA-MB-231 cells.

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Section: ■ Discussionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Ru(II)-Based Acetylacetonate Complexes Induce Apoptosis Selectively in Cancer Cells

et al. 2021

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“…In a recent paper, Glazer et al. investigated a series of cationic [Ru(bpy) 2 (O^O)] + complexes, where O^O is acac or a substituted acac [24] . They found that the in vitro cytotoxicity of the complexes roughly correlates with the lipophilicity/hydrophobicity of the acac ligand (and thus of the complex) [24] .…”

Section: Discussionmentioning

confidence: 99%

“…investigated a series of cationic [Ru(bpy) 2 (O^O)] + complexes, where O^O is acac or a substituted acac [24] . They found that the in vitro cytotoxicity of the complexes roughly correlates with the lipophilicity/hydrophobicity of the acac ligand (and thus of the complex) [24] . The cytotoxic activity of complex 4 is consistent with these results; in Glazer's complexes, the lipophilicity of the substituted‐acac ligands compensates for the less lipophilic bpy ligand (compared to DIP).…”

Section: Discussionmentioning

confidence: 99%

Ruthenium(II) Polypyridyl Complexes Containing Simple Dioxo Ligands: a Structure‐Activity Relationship Study Shows the Importance of the Charge

et al. 2022

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Cancer is one of the main causes of death worldwide. Platinum complexes (i. e., cisplatin, carboplatin, and others) are currently heavily used for the treatment of different types of cancer, but unwanted effects occur. Ruthenium complexes have been shown to be potential promising alternatives to these metalbased drugs. In this work, we performed a structure-activity relationship (SAR) study on two small series of Ru(II) polypyridyl complexes of the type [Ru(L1) 2 (O^O)]Cl n (3-8), where L1 is 4,7diphenyl-1,10-phenantroline (DIP) or 1,10-phenantroline (phen), and O^O is a symmetrical anionic dioxo ligand: oxalate (ox, n = 0), malonate (mal, n = 0), or acetylacetonate (acac, n = 1). These two self-consistent series of compounds allowed us to perform a systematic investigation for establishing how the nature of the ligands and the charge affect the anticancer properties of the complexes. Cytotoxicity tests on different cell lines demonstrated that some of the six compounds 3-8 have a promising anticancer activity. More specifically, the cationic complex [Ru(DIP) 2 (η 2 -acac)]Cl (4) has IC 50 values in the mid-nanomolar concentration range, lower than those of cisplatin on the same cell lines. Interestingly, [Ru(DIP) 2 (η 2 -acac)]Cl was found to localize mainly in the mitochondria, whereas a smaller fraction was detected in the nucleus. Overall, our SAR investigation demonstrates the importance of combining the positive charge of the complex with the highly lipophilic diimine ligand DIP.

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A Near‐Infrared Light‐Activated Photocage Based on a Ruthenium Complex for Cancer Phototherapy

Wang

et al. 2023

Angewandte Chemie

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Conventional photocages only respond to short wavelength light, which is a significant obstacle to developing efficient phototherapy in vivo. The development of photocages activated by near-infrared (NIR) light at wavelengths from 700 to 950 nm is important for in vivo studies but remains challenging. Herein, we describe the synthesis of a photocage based on a ruthenium (Ru) complex with NIR light-triggered photocleavage reaction. The commercial anticancer drug, tetrahydrocurcumin (THC), was coordinated to the Ru II center to create the Ru-based photocage that is readily responsive to NIR light at 760 nm. The photocage inherited the anticancer properties of THC. As a proof-of-concept, we further engineered a self-assembled photocage-based nanoparticle system with amphiphilic block copolymers. Upon exposure to NIR light at 760 nm, the Ru complex-based photocages were released from the polymeric nanoparticles and efficiently inhibited tumor proliferation in vivo.

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Biological Investigations of Ru(II) Complexes with Diverse β‐Diketone Ligands

Cited by 9 publications

References 80 publications

Ru(II)-Based Acetylacetonate Complexes Induce Apoptosis Selectively in Cancer Cells

Ru(II)-Based Acetylacetonate Complexes Induce Apoptosis Selectively in Cancer Cells

Ruthenium(II) Polypyridyl Complexes Containing Simple Dioxo Ligands: a Structure‐Activity Relationship Study Shows the Importance of the Charge

A Near‐Infrared Light‐Activated Photocage Based on a Ruthenium Complex for Cancer Phototherapy

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