Self-assembled metalla-rectangles bearing azodipyridyl ligands: synthesis, characterization and antitumor activity

Vajpayee, Vaishali; Lee, Sun-Mi; Kim, Seol Hee; Kang, Se Chan; Cook, Timothy R.; Kim, Hyunuk; Kim, Dong Wook; Verma, S. S.; Lah, Myoung Soo; Kim, In Su; Wang, Ming; Stang, Peter J.; Chi, Ki‐Whan

doi:10.1039/c2dt31014g

Cited by 48 publications

(26 citation statements)

References 62 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The IC 50 values of the corresponding clips were significantly higher, with only the donq clip showing measurable activity for SK-hep-1 cells. 23 The donq-based SCCs were particularly potent, with IC 50 values oftentimes exceeding that of cisplatin, and on par with a second control drug, doxorubicin. The oxalato and dobq-containing species were relatively inactive in comparison.…”

Section: Ruthenium Sccs As Anticancer Agentsmentioning

confidence: 99%

“…For example, by incorporating amide groups into the core of dipyridyl donors, 17 and 18 , 25 sites for hydrogen bonding were preserved and the presence of azo functionalities on donors 19 – 22 unlock potential photo-sensitization. 23 The assemblies formed from the combinations of 17 – 22 with 6 – 9 were investigated using five cell lines obtained from American Type Culture Collection for SCC25-SCC27 : HeLa, HCT-15, and MDA-MB-231, SK-hep-1, A-549, with the latter two cell lines also used in assays with the sixteen azodipyridyl-based assemblies. SCC25 and SCC26 , containing the oxalate bridged clip, were inactive, while rectangle SCC27 , which employed the donq-bridged clip, possessed IC 50 values that were similar to those of cisplatin, with values (µM) of 4.2 ± 0.11 (SK-hep-1); 10.2 ± 0.21 (HeLa); 3.7 ± 0.10 (HCT-15); 3.2± 0.11(A-549); 2.8 ± 0.03 (MDA-MB-231).…”

Section: Ruthenium Sccs As Anticancer Agentsmentioning

confidence: 99%

See 1 more Smart Citation

Biomedical and Biochemical Applications of Self-Assembled Metallacycles and Metallacages

et al. 2013

Self Cite

View full text Add to dashboard Cite

Conspectus Coordination-driven self-assembly utilizes the spontaneous formation of metal-ligand bonds in solution to drive mixtures of molecular building blocks to single, unique 2D metallacycles or 3D metallacages based on the directionality of the precursors used. The supramolecular coordination complexes (SCCs) obtained via this process are characterized by well-defined internal cavities and facile pre- or post-self-assembly functionalizations. These properties augment the modularity of the directional bonding design strategy to afford structures with unprecedented tunability both spatially and electronically. Over the past decades, a number of synthetic design methodologies have become established which has led to a substantial library of complexes supported by numerous structural studies. More recently, there has been an emergence of research centered on the potential applications of SCCs, which has developed rapidly on the foundations provided by the aforementioned synthetic and structural bodies of work. The necessary presence of metal ions as structural elements for the directional bonding approach can be exploited to provide biological activity to an SCC, particularly for Pt and Ru-based structures. Since these two metals are not only among the most commonly used for coordination-driven self-assembly but are also the basis for a number of small molecule anticancer agents, a growing number of SCCs have been evaluated for their antitumor properties. When the internal cavity of a cage is optimized for guest encapsulation, a second vector for biological activity, namely drug delivery, is unlocked. Since cages can offer both inherent activity due to their metal ions, as well as delivery of exogenous drug molecules, such ensembles are particularly promising chemotherapeutic agents. The non-covalent interactions of SCCs with guest molecules oftentimes manifest photophysical changes to the resulting host/guest complex. Since a metallacage or cycle can be readily tuned to match a specific guest, certain SCCs are well-suited to act as fluorescence-based sensors for biologically relevant analytes. These interactions are not limited to small molecule analytes, however, and SCCs are increasingly being studied for their chemistry with macro biomolecules including DNA and proteins. In particular, dinuclear iron and ruthenium-based helicates bind to a variety of DNA constructs through non-covalent mechanisms. Studies concerning these cylindrical SCCs, which have expanded beyond Ru and Fe, often include characterizations of specific interactions with DNA or other biomolecules. Such investigations are not limited to dinuclear M2L3 helicates; Pt-based squares are well-suited to stabilize G-quadruplex DNA and rhomboid metallacycles can unravel supercoiled DNA, further demonstrating the versatility of multinuclear supramolecular architectures. Understanding these interactions in the context of observed cytotoxicities and other biological consequences is critical for developing new chemotherapeutic agents and developing mech...

show abstract

Section: Ruthenium Sccs As Anticancer Agentsmentioning

confidence: 99%

Section: Ruthenium Sccs As Anticancer Agentsmentioning

confidence: 99%

Biomedical and Biochemical Applications of Self-Assembled Metallacycles and Metallacages

et al. 2013

Self Cite

View full text Add to dashboard Cite

show abstract

“…Following these first studies, Chi, Stang and coworkers have reported several analogous metalla-rectangles, each being formed by combining dinuclear arene ruthenium clips and bipyridyl connectors [39,[61][62][63][64][65]. The IC 50 values for particular combinations of clips and connectors are in the lower micromolar range, while others show poor activities.…”

Section: Water-soluble Arene Ruthenium Complexesmentioning

confidence: 99%

The Biological Side of Water-Soluble Arene Ruthenium Assemblies

Therrien

Furrer

2014

Advances in Chemistry

View full text Add to dashboard Cite

This review article covers the synthetic strategies, structural aspects, and host-guest properties of ruthenium metalla-assemblies, with a special focus on their use as drug delivery vectors. The two-dimensional metalla-rectangles show interesting host-guest possibilities but seem less appropriate for being used as drug carriers. On the other hand, metalla-prisms allow encapsulation and possible targeted release of bioactive molecules and consequently show some potential as drug delivery vectors. The reactivity of these metalla-prisms can be fine-tuned to allow a fine control of the guest’s release. The larger metalla-cubes can be used to stabilize the formation of G-quadruplex DNA and can be used to encapsulate and release photoactive molecules such as porphins. These metalla-assemblies demonstrate great prospective in photodynamic therapy.

show abstract

“…3 Recently, a variety of arene-Ru molecular clips bridged by O,O-chelating ligands have been reported for the self-assembly of metalla-rectangles and prisms. 4 In this context, ruthenium is not simply a structural element; the metal fulfils a functional role as the impetus for antitumor activity. 5 …”

mentioning

confidence: 99%

Growth Inhibitory Activity of a Bis-Benzimidazole-Bridged Arene Ruthenium Metalla-Rectangle and -Prism

Vajpayee¹,

Lee²,

Park³

et al. 2013

Organometallics

Self Cite

View full text Add to dashboard Cite

Two new supramolecular coordination complexes (SCCs), were obtained from the self-assembly of a new bis-benzimidazole bridged Ru acceptor, 4, with dipyridyl and tripyridyl donors, respectively. As part of a growing library of anticancer-active Ru-based SCCs, metalla-prism 6 selectively showed high cytotoxicities relative to cisplatin for a series of cancer cell lines, with IC50 values as low as 8.41 μM for MCF7 cells, as determined from MTS assays.

show abstract

Self-assembled metalla-rectangles bearing azodipyridyl ligands: synthesis, characterization and antitumor activity

Cited by 48 publications

References 62 publications

Biomedical and Biochemical Applications of Self-Assembled Metallacycles and Metallacages

Biomedical and Biochemical Applications of Self-Assembled Metallacycles and Metallacages

The Biological Side of Water-Soluble Arene Ruthenium Assemblies

Growth Inhibitory Activity of a Bis-Benzimidazole-Bridged Arene Ruthenium Metalla-Rectangle and -Prism

Contact Info

Product

Resources

About