(S)-stereoisomer of telomestatin as a potent G-quadruplex binder and telomerase inhibitor

Total synthesis of the (S)-stereoisomer of telomestatin (1) was accomplished. (S)-Telomestatin exhibited potency four times that of the natural product, (R)-telomestatin, which was the most potent telomerase inhibitor previously reported. In the circular dichroism spectral analysis of the complexes possessing randomly structured single-stranded d[TTAGGG](4) oligonucleotide, (S)-telomestatin, like (R)-telomestatin, induced an antiparallel G-quadruplex structure. The melting temperature (T(m)) value of the (S)-isomer complex was greater than that of the (R)-telomestatin complex. Therefore, it is concluded that the stereochemistry of the thiazoline of telomestatin is important to the binding ability of a G-quadruplex binder, and (S)-telomestatin as a G-quadruplex binder is more potent than the natural product.     

Aminosilane as an effective binder for hydroxyapatite-gelatin nanocomposites

Aminosilane has been explored as an alternative chemical linker to facilitate the binding and solidification of hydroxyapatite-gelatin nanocomposite at room temperature, which was synthesized using co-precipitation method in the presence of gelatin. This aminosilane treatment was found effective at low concentration (~25 μL/mL) and the solidification and dehydration of hydroxyapatite-gelatin slurry completes within hours depending on the amount of aminosilane. The resulting sample exhibits compressive strength of 133 MPa, about 40% higher than glutaraldehyde treated samples, and shows good biocompatibility based on cell adhesion, proliferation, alkaline phosphate synthesis, and mineralization studies.     

Fluorescent-tagged block copolymer as an effective and green inhibitor for calcium sulfate scales

Allyloxy polyethoxy ether (APEG) and succinic anhydride were used to prepare allyloxy polyethoxy carboxylate (APEL). 8-Hydroxy-1,3,6-pyrene trisulfonic acid trisodium salt (PY) was reacted with allyl chloride to produce fluorescent monomer 8-allyloxy-1,3,6-pyrene trisulfonic acid trisodium salt (PA). APEL and PA were copolymerized with maleic anhydride (MA) to synthesize PA tagged no phosphate and nitrogen free CaSO₄ inhibitor MA–APEL–PA. Structures of PA, APEG, APEL, and MA–APEL–PA were identified by ¹H NMR. The observation shows that the dosage of MA–APEL–PA plays an important role on CaSO₄ inhibition. The effect on formation of CaSO₄ was investigated with scanning electron microscope (SEM) analysis. Relationship between MA–APEL–PA’s fluorescent intensity and its dosage was studied. Correlation coefficient R ² of MA–APEL–PA fluorescent intensity and MA–APEL–PA dosage is 0.9991.     

Sulfated liposaccharides inspired by telomerase inhibitor axinelloside A

Sulfated liposaccharides are known inhibitors of telomerase and here we describe the synthesis of a series of sulfated liposaccharides inspired by the natural product axinelloside A, reported to act as an inhibitor of human telomerase. We established a robust and scalable synthetic route to galactosyl liposaccharides capitalizing on a series of regioselective acylation reactions with 2-decenoic acid and imidazolium sulfate esters.     

Fabrication of palladium nanoparticles as effective catalysts by using supramolecular gels

Two-component supramolecular gels were made through self-assembly of tetrazolyl derivatives and Pd(OAc)₂. The robust gels indicated high storage modulus(>10,000 Pa) and loss modulus, which were studied by rheological measurements. The formed Pd nanoparticles(~9 nm) obtained during the formation of the gel showed effective catalytic hydrogenation of nitrobenzene and could be recovered and reused without loss of activity.     

Platinum(II) complexes with dipyridophenazine ligands as human telomerase inhibitors and luminescent probes for G-quadruplex DNA

A series of platinum(II) complexes containing dipyridophenazine (dppz) and C-deprotonated 2-phenylpyridine (N-CH) ligands were prepared and assayed for G-quadruplex DNA binding activities. [PtII(dppz-COOH)(N-C)]CF3SO3 (1; dppz-COOH = 11-carboxydipyrido[3,2-a:2',3'-c]phenazine) binds G-quadruplex DNA through an external end-stacking mode with a binding affinity of approximately 10(7) dm3 mol-1. G-quadruplex DNA binding is accompanied by up to a 293-fold increase in the intensity of photoluminescence at lambdamax = 512 nm. Using a biotinylated-primer extension telomerase assay, 1 was shown to be an effective inhibitor of human telomerase in vitro, with a telIC50 value of 760 nM.     

Lithium cubane clusters as tetrahedral, square planar, and linear nodes for supramolecular assemblies

The use of bifunctional ligands with phenol and pyridyl groups has been found to promote the formation of lithium cubane clusters intrinsically coded with specific preference for various hydrogen-bonding geometries including tetrahedral, square-planar, and linear modes through double, or even quadruple hydrogen bonding between adjacent nodes.     

Arabinogalactan as effective inhibitor of calcium carbonate scaling

Arabinogalactan inhibits the crystallization of calcium carbonate on the surface of stainless steel in a supersaturated aqueous solution at 80ºC. In the presence of arabinogalactan, the size of calcium carbonate crystals decreases and their structure changes. Arabinogalactan is a “green” scaling inhibitor.     

An aquatic host-guest complex between a supramolecular G-quadruplex and the anticancer drug doxorubicin

We describe the synthesis of a fluorescent deoxyguanosine derivative that co-assembles (in water) with an unlabeled analogue into a heteromeric supramolecular G-quadruplex, which forms a host-guest complex with doxorubicin as evidenced by FRET experiments.     

Ultrasensitive immunoassay of microcystins-LR using G-quadruplex DNAzyme as an electrocatalyst

An electrochemical immunoassay for microcystin-LR (MC-LR) detection was developed using multi-labeled horseradish peroxidase-mimicking DNAzyme on carbon nanotubes (CNTs) as electrocatalyst for signal amplification. CNTs were covalently conjugated to multiple DNAzyme along with MC-LR for a competitive immunoassay. The as-prepared DNAzyme/CNTs/MC-LR biolabel was specifically captured on the electrode surface, and current responses were obtained upon the electro-catalytic reduction of hydrogen peroxide by the captured biolabels. Under optimal conditions, the electro-catalytic current decreased linearly with the increase amount of MC-LR in the range from 0.01 to 7.0 µg L^?1. The linear regression equation was I (µA) = 12.96 ? 1.48 X _[MC–LR] (µg L^?1), with a correlation coefficient of 0.989. The limit of detection of MC-LR was 2.31 ng L^?1. Application of the immunoassay method and LC/MS/MS method for MC-LR determination on spiked reservoir water gave recovery range of 91.7–105.2% and 94.0–105.0%, respectively. The resulting versatile immunoassay exhibited high sensitivity, good precision and satisfactory reproducibility, which could have vast potential in routine water quality monitoring for various environmental toxins.     

Pt(ii) squares as selective and effective human telomeric G-quadruplex binders and potential cancer therapeutics

A series of four self-assembled Pt(ii) molecular squares with 4,4'-dipyridyl or pyrazine bridges, including the previously reported Pt(ii) squares [Pt(en)(4,4'-dipyridyl)](4)(NO(3))(8) (1), were investigated for their abilities to act as selective and effective human telomeric (htelo) G-quadruplex binders. FRET and SPR studies demonstrated that Pt(ii) squares could discriminate against duplex DNA, and show promising selectivity between intramolecular G-quadruplexes. PCR-stop assays and CD studies showed that Pt(ii) squares strongly induced the formation of parallel G-quadruplexes. ITC experiments indicated that Pt(ii) squares could bind to the G-quadruplex with high binding constants (K(b) values ranging from 10(4)-10(8) M(-1)). All four Pt(ii) squares were effective inhibitors of human telomerase, and showed anticancer efficacy. This was particularly the case for [Pt(NH(3))(2)(4,4'-dipyridyl)](4)(NO(3))(8) (2), which exhibited a 15-fold higher antiproliferative effect on A549/cisR cells than cisplatin.     

Potentiometry of effective concentration of polyacrylate as scale inhibitor

The concentration of polyacrylate (PA) used as a scale inhibitor was potentiometrically determined with a solid state copper ion-selective electrode after addition of Cu²⁺ as a probe. While the conventional methods monitor only the total concentration of PA, the proposed method measures the free, “effective” concentration of PA in equilibrium with species like Ca²⁺ and CaCO₃. The slope of a potential response to PA was −40 mV decade⁻¹ and the limit of detection was 10^−6.3 M (= mol dm⁻³) at a probe concentration of 10⁻⁶ M. The system could be used to control the PA concentration just enough to prevent the scale formation in various circulating water systems.     

A formal total synthesis of the telomerase inhibitor dictyodendrin B

A formal synthesis of the telomerase inhibitory marine pyrrolocarbazole alkaloid dictyodendrin B is described. The key features are consecutive palladium-catalyzed cross-coupling reactions and intramolecular reductive coupling reaction to construct the pyrrolo[2,3-c]carbazole framework.     

A triphenylene based zinc ensemble as an oxidation inhibitor

The zinc complex of a new triphenylene based receptor is evaluated for its anti-oxidant activity which is better in comparison to that of commercially available anti-oxidants.     

A supramolecular approach to an allosteric catalyst

The design and synthesis of a novel, supramolecular allosteric catalyst system, assembled via the weak-link approach, is presented. The catalyst contains two structural Rh(I) centers in thioether- and phosphine-rich hemilabile pockets, and two functional Cr(III) centers bound within salen-based moieties. The catalytic properties of the supramolecular catalyst are compared to those of a Cr(III)-salen monomeric analogue in the context of the asymmetric ring opening of cyclohexene oxide by TMSN3. Allosteric control is afforded via reactions that occur at distal sites which open the macrocyclic cavity and facilitate the catalytic reaction. Kinetic data show a significant rate increase upon opening of the catalyst's flexible macrocyclic cavity and enhanced selectivity and reactivity with respect to the monomeric Cr(III)-salen analogue. The work presented represents a new approach to the construction of abiotic allosteric catalysts.     

A dinuclear ruthenium(II) complex as an inducer and potential luminescent switch-on probe for G-quadruplex DNA

Given that recognition and regulation of G-quadruplex nucleic acid structures is an important goal for the development of chemical tools and medicinal agents, a dinuclear ruthenium complex [Ru₂(bpy)₄(bip-phenol)](ClO₄)₄ {bpy?=?2,2′-bipyridine, bip-phenol?=?2,4-bis(1H-imidazo[4,5-f] [1,10] phenanthroline-2-yl)phenol} has been synthesized and characterized, and its interactions with telomeric G-quadruplex DNA have been explored by photophysical and biophysical methods. This complex can induce and stabilize the formation of an antiparallel G-quadruplex of telomeric DNA in the absence of salt, or in the presence of K⁺/Na⁺-containing buffer. The complex binds strongly to the telomeric G-quadruplex, with a binding constant K_b?>?10⁶ and a 2:1 [complex]/[quadruplex] binding ratio. Fluorescence titrations revealed that the complex behaves as a promising photophysical “light switch” for G-quadruplex DNA, with 8.6- and 8.4-fold fluorescence enhancements in Na⁺ and K⁺ buffers, respectively.     

A photoactivated trans-diammine platinum complex as cytotoxic as cisplatin

The synthesis and X-ray structure (as the tetrahydrate) of the platinum(IV) complex trans,trans,trans-[Pt(N(3))(2)(OH)(2)(NH(3))(2)] 3 are described and its photochemistry and photobiology are compared with those of the cis isomer cis,trans,cis-[Pt(N(3))(2)(OH)(2)(NH(3))(2)] 4. Complexes 4 and 3 are potential precursors of the anticancer drug cisplatin and its inactive trans isomer transplatin, respectively. The trans complex 3 is octahedral, contains almost linear azide ligands, and adopts a layer structure with extensive intermolecular hydrogen bonding. The intense azide-to-platinum(IV) charge-transfer band of complex 3 (285 nm; epsilon=19 500 M(-1) cm(-1)) is more intense and bathochromically shifted relative to that of the cis isomer 4. In contrast to transplatin, complex 3 rapidly formed a platinum(II) bis(5'-guanosine monophosphate) (5'-GMP) adduct when irradiated with UVA light, and did not react in the dark. Complexes 3 and 4 were non-toxic to human skin cells (keratinocytes) in the dark, but were as cytotoxic as cisplatin on irradiation for a short time (50 min). Damage to the DNA of these cells was detected by using the "comet" assay. Both trans- and cis-diammine platinum(IV) diazide complexes therefore have potential as photochemotherapeutic agents.     

Stabilization of G-quadruplex DNA and inhibition of telomerase activity by square-planar nickel(II) complexes

Two new alkylamine-substituted nickel(II)-salphen complexes have been prepared and their interactions with DNA investigated. FRET studies have shown that these complexes have a remarkable ability to stabilize G-quadruplex DNA. Furthermore, TRAP/Taq assays have shown that these complexes inhibit telomerase at low micromolar concentrations.