Cucurbiturils, Synthesis and Applications

Mohanty, Jyotirmayee

doi:10.1002/0471440264.pst639

Cited by 6 publications

(8 citation statements)

References 77 publications

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“…grade were used as purchased without further purification. [RuCl 2 (cym)] 2 , [RuCl 2 (tol)] 2 , and [RuCl 2 (ben)] 2 were prepared according to reported procedures. − Cucurbit[6]uril and cucurbit[7]uril were prepared as described by Mohanty …”

Section: Methodsmentioning

confidence: 99%

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Locked and Loaded: Ruthenium(II)-Capped Cucurbit[n]uril-Based Rotaxanes with Antimetastatic Properties

et al. 2019

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We report here the first coupling of Ru(II) units with cucurbit[6/7]uril-based pseudorotaxane ligands meant for biological application. The resulting ruthenium-capped rotaxanes were fully characterized, and a structure of one supramolecular system was determined by X-ray diffraction. Because the biological properties of Ru-based metallodrugs are tightly linked to the ligand-exchange processes, the effect of salt concentration on the hydrolysis of chlorides from the Ru(II) center was monitored by using 1H NMR spectroscopy. The biological activity of Ru(II)-based rotaxanes was evaluated for three selected mammalian breast cell lines, HBL-100, MCF-7, and MDA-MB-231. The antimetastatic activity of the assembled cationic Ru(II)–rotaxane systems, evaluated in migration assays against MCF-7 and MDA-MB-231 cell lines, is notably enhanced compared to that of RAPTA-C, a reference that was used. The indicated synergistic effect of combining Ru(II) with a pseudorotaxane unit opens a new direction in searching for anticancer supramolecular metallodrugs.

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Section: Methodsmentioning

confidence: 99%

“…90−92 Cucurbit [6]uril and cucurbit [7]uril were prepared as described by Mohanty. 93 Mass Spectrometry (MS). MS analyses were performed on an Agilent 6224 AccurateMass TOF LC-MS instrument coupled with a multimode ion source using electrospray ionization in positive mode.…”

Section: ■ Conclusionmentioning

confidence: 99%

Locked and Loaded: Ruthenium(II)-Capped Cucurbit[n]uril-Based Rotaxanes with Antimetastatic Properties

et al. 2019

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“…The synthesis of cucurbit[ n ]urils (CBn) by Behrend dates back to 1905; however, active research in this area came up only after its complete characterization was achieved in the early 1980s. Cucurbiturils are made up of methylene-linked glycoluril monomers that construct symmetric hydrophobic cavities with n carbonyl groups at each portal. ,,, CBs are synthesized by the acid-catalyzed condensation of glycoluril with formaldehyde and separated by using acetone/water solvent mixtures. ,,, Like cyclodextrins (CDs) and calixarenes (CXs), homologues of cucurbit[ n ]uril (CBn), where n = 5–14, (Figure ), denote the number of glycoluril monomer units present and display varying cavity and portal dimensions. ,,, Though several other macrocyclic hosts have also been extensively used to study host–guest complexation, the uniqueness of each host in its portal group and the cavity dimensions, polarity, and aqueous solubility make them distinct in their applications. Cyclodextrin (CD) homologues of macrocycles (α-CD, β-CD, γ-CD) contain a hydrophobic central cavity and hydrophilic portals (secondary hydroxyl groups in the wider rim and primary hydroxyl groups in the narrow rim) and are shaped like a truncated cone.…”

Section: Cucurbituril Macrocycle and Its Homologuesmentioning

confidence: 99%

“…Intriguingly, the larger CB10 host is capable of encapsulating its smallest homologue, CB5, and also conveniently forms a complex with metalated tetra-( N -methylpyridinium)porphyrins . However, the largest CB n reported, CB14, exists in a folded figure-eight conformation and apparently does not contain the expected large CB cavity for the guest interaction. , On the other hand, metal ions interact with CBs via the two carbonyl rims, and because only a few of the oxygen atoms at the CBn portal interact during binding, several cations can be complexed with the same portal. , Anionic guests may also interact with CBs but via an altogether different mechanism of peripheral binding. , For example, the polyoxovanadate anion clusters bind strongly at the positively polarized equatorial periphery of CBs (CB6 and CB8) through C–H–O interactions . It has been shown recently that this class of macrocycles exhibits low in vitro as well as in vivo toxicity, enabling therapeutic and sensing applications that are relevant in the biological perspective .…”

Section: Cucurbituril Macrocycle and Its Homologuesmentioning

confidence: 99%

“…Cucurbiturils are made up of methylene-linked glycoluril monomers that construct symmetric hydrophobic cavities with n carbonyl groups at each portal. 14,19,20,45 CBs are synthesized by the acid-catalyzed condensation of glycoluril with formaldehyde and separated by using acetone/water solvent mixtures. 14,19,20,35 Like cyclodextrins (CDs) and calixarenes (CXs), homologues of cucurbit[n]uril (CBn), where n = 5−14, (Figure 1), denote the number of glycoluril monomer units present and display varying cavity and portal dimensions.…”

Section: Homologuesmentioning

confidence: 99%

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Cucurbituril-Based Supramolecular Assemblies: Prospective on Drug Delivery, Sensing, Separation, and Catalytic Applications

2022

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Precise control over the stimuli-responsive noncovalent interactions operative in a complex molecular system has emerged as a convenient way to realize applications in the detection and sensing of trace analytes, metal ion separation, uptake–release, in situ nanoparticle synthesis, and catalytic activity. This feature article focuses on the attributes and advantages of noncovalent host–guest interactions involving cucurbituril homologues (CBs) with a wide range of organic and inorganic guests, starting from organic dyes to drugs, proteins, surfactants, metal ions, and polyoxometalates. The unique structural features of CBs provide interaction sites for cations at the portals, polyanions at the periphery, and hydrophobic groups in its cavity. The facile complexation and consequent compositional and geometrical arrangements of guests such as naphthalenediimides, coumarins, porphyrins, and triphenylpyrylium ions with the host CBs led to remarkable changes in many molecular properties, especially aggregation, the proton binding and release affinity, and novel emissive dimers, and each of such spectroscopic signatures have been appropriately channeled to drug delivery and activation to improve the antibacterial efficacy and shelf life of drugs by increasing their photostability. Several technological advantages have also been extracted from the interaction of CBs with inorganic guests as well. The interaction of CB7 with the heptamolybdate anion resulted in the precipitation of a hybrid complex material which enabled a convenient separation methodology for the use of clinically pure radioactive 99mTc in diagnostic applications. Certain cucurbituril-based hybrid materials have been developed for enhanced SO2 adsorption at low pressures, high-efficiency hydrogen production, and reversible catalytic systems. Thus, this feature article provides a glimpse of the vast potential of cucurbituril homologues with organic and inorganic guests and calls for a dedicated effort to explore supramolecular strategies for better sensors, therapeutics, smart drug delivery modules, and facile devices.

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Hetero‐Bambusurils

Reany

Mohite

Keinan

2018

Israel Journal of Chemistry

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Synthetic anion carriers are essential for studying natural ion transporters and channels and for useful applications, such as treatment of channelopathies, supramolecular architecture, anion sensing and catalysis. Driven by the hypothesis that replacement of oxygen atoms in bambusurils (BUs) by other heteroatoms could significantly modify their anion binding properties, we calculated their molecular electrostatic potential and found a general trend of anion‐affinity: S>O>NH. We confirmed these predictions experimentally by synthesizing semithio‐ and semiaza‐BUs and studying their binding and transport properties. Although all analogs are excellent anion binders, only semithio‐bambus[6]uril is an effective transmembrane transporter capable of polarizing lipid membranes through selective anion uniport. Semiaza‐BUs exhibit simultaneous accommodation of three anions, linearly positioned along the main symmetry axis, which is reminiscent of natural chloride channels in E. coli.

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Cucurbiturils, Synthesis and Applications

Cited by 6 publications

References 77 publications

Locked and Loaded: Ruthenium(II)-Capped Cucurbit[n]uril-Based Rotaxanes with Antimetastatic Properties

Locked and Loaded: Ruthenium(II)-Capped Cucurbit[n]uril-Based Rotaxanes with Antimetastatic Properties

Cucurbituril-Based Supramolecular Assemblies: Prospective on Drug Delivery, Sensing, Separation, and Catalytic Applications

Hetero‐Bambusurils

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