Search Results (251)

Our work introduces a facile and efficient metal-free [3+3] annulation approach for the synthesis of polysubstituted pyridines via the reaction between β-enaminonitriles and β,β-dichloromethyl peroxides. This strategy operates under mild conditions, demonstrating broad substrate scope and excellent functional group tolerance. Mechanistic investigations suggest that the reaction proceeds through a Kornblum–De La Mare rearrangement followed by S_NV-type C-Cl bond cleavage and intramolecular cyclization/condensation. By circumventing the need for transition metal catalysts or radical initiators, our method offers practical utility in organic synthesis and provides a new avenue for the rapid construction of complex pyridine scaffolds. Full article

Background/Objectives: Oxidative stress, the Warburg effect, and resistance to apoptosis are key hallmarks driving colorectal tumorigenesis. This study aimed to develop novel multi-target compounds capable of modulating these pathways. Methods: A library of 24 newly synthesized compounds—incorporating annulated thiophene, thiazole, quinazolinone, 2-oxoindoline, and 1,2,3-oxadiazole scaffolds, as well as N-(1-(4-hydroxy-3-methoxyphenyl)-3-oxo-3-(2-(phenylcarbamothioyl)hydrazineyl) prop-1-en-2-yl)benzamide—was evaluated for antioxidant activity (DPPH assay), PDK-1 and LDHA inhibition, cytotoxic effects against LoVo and HCT-116 colon carcinoma cells, with parallel assessment of safety profiles on normal HUVECs. The underlying anticancer mechanism of the most active compound was investigated through analysis of cell cycle distribution, apoptosis induction, intracellular reactive oxygen species levels, mitochondrial membrane potential disruption, and expression levels of apoptosis-related genes. Molecular docking assessed binding interactions within LDHA and PDK-1 active sites. The physicochemical, drug-likeness, and ADMET properties of the multi-bioactive candidates were predicted in silico. Results: Among the synthesized compounds, thiophenes 3b and 3d exhibited potent PDK-1/LDHA and DPPH/LDHA inhibitions, along with significant cytotoxic effects on LoVo/HCT-116 cells (IC₅₀ in µM: 190.30/170.21 and 156.60/160.96, respectively), while showing minimal cytotoxicity toward HUVECs. Molecular docking revealed favorable interactions with key amino acid residues within the LDHA and/or PDK-1 active sites. Compound 3d notably induced G2/M (LoVo) and G1 (HCT-116) arrest and promoted apoptosis via enhancing ROS generation, modulating Bax/Bcl-2 expressions, disrupting mitochondrial membrane potential, and ultimately activating caspses-3. In silico predictions indicated their promising drug-likeness and pharmacokinetics, though high lipophilicity, poor solubility (especially for 3b), and potential toxicity risks were identified as limitations. Conclusions: Thiophenes 3b and 3d emerged as promising multi-target candidates; however, structural optimization is warranted to enhance their solubility, bioavailability, and safety to support further development as lead anti-colon cancer agents. Full article

In recent years, bipolar organic electrode materials have gained recognition as competitive alternatives to inorganic materials due to their unique multielectron redox mechanism for energy storage. In this study, we examined the mechanism of redox reactions in naphthalimide (NI) derivatives when used as electrodes in lithium half-cells with ionic liquid electrolytes. The NI derivatives consist of three building fragments: an aromatic naphthalene core, N-alkylated imide unit, and a peri-dichalcogenide bridge. The integration of electrochemical and microscopic methods with DFT calculations facilitates the delineation of the role of each fragment in the oxidation and reduction reactions of NI derivatives. It is found that the peri-dichalcogenide bridge is mainly involved in the oxidation of NI derivatives above 3.9 V, the charge compensation being achieved by electrolyte TFSI⁻ counter-ions. The reduction of NI derivatives with two Li⁺ ions is mainly due to the participation of the chalcogenide bridge, while after interaction with the next two Li⁺ ions, the imide fragment and the naphthalene moiety contribute equally to the reduction. Based on the leading role of the peri-dichalcogenide bridge, the redox properties of NI derivatives are effectively controlled by the gradual replacement of S with Se and Te atoms in the bridge. To improve the electronic conductivity of NIs, composites with rGO are also synthesized by a simple procedure of mechanical mixing in a centrifugal mixer. The composites rGO/NIs display a good storage performance, the best being the Se-containing analogue. Full article

Quinoline, a heterocyclic scaffold of paramount importance in medicinal and industrial chemistry, has garnered significant attention due to its versatile applications. Traditional synthetic methods, dating back over a century, have evolved into innovative strategies leveraging catalytic C–H bond activation, transition-metal-free protocols, and photo-induced oxidative cyclization. Recent advancements highlight the synergistic roles of catalysts, oxidants, and solvents in enhancing molecular reactivity and reaction efficiency. This review systematically summarizes state-of-the-art oxidative annulation techniques for quinoline synthesis, emphasizing mechanistic insights and practical applications. Full article

Acariform mites of the superfamily Eriophyoidea are permanent parasites of higher vascular plants. Seasonal morphological dimorphism in females has been documented across various eriophyoid taxa, while male dimorphism remains poorly understood. In this study, we analyzed morphological, molecular, and biological data from the genus Austracus Keifer 1944, with a particular focus on the type species, A. havrylenkonis Keifer 1944, associated with Nothofagus. Using new material collected from Chile and Argentina, we demonstrated that this species exhibits two distinct forms of both males and females, making it the first known bisexually dimorphic taxon within the family Phytoptidae. The summer form of A. havrylenkonis displays the unstable annulation of the dorsal opisthosoma, characterized by a significant variation in the number of thin, microtuberculated dorsal annuli interspersed among the broader, plate-like annuli typical of the winter form. This finding aligns with the previous observations of atypical deuterogyny in Eriophyoidea and leads us to hypothesize that gall mites employ diverse adaptive strategies—manifesting as either gradual or discrete morphological changes—to cope with seasonal environmental fluctuations. Investigating the genetic mechanisms underlying these adaptive strategies, along with further studies of eriophyoids associated with Nothofagus in the Southern Hemisphere, represents a promising direction for future research. Full article

Two new species from the Yellow Sea, Hypodontolaimus minus sp. nov. and Bolbolaimus distalamphidus sp. nov., are described in this study. Hypodontolaimus minus sp. nov. is characterized by a relatively small body length, a cuticle with two longitudinal lateral differentiations connected with transverse bars, four files of sublateral somatic setae, a pharynx with an anterior and posterior bulb, L-shaped spicules, a slightly swollen proximal end, a distal end tapered with a posterior pointed hook, and a gubernaculum with dorsal caudal apophysis. Bolbolaimus distalamphidus sp. nov. is characterized by a relatively small body size, a strongly annulated cuticle, six short outer labial sensilla and four long cephalic setae, an amphideal fovea unispiral oval that is far from the anterior end, slightly curved spicules, gubernaculum with anterior-pointed apophysis, and a conical tail. Phylogenetic analyses within the family Chromadoridae and the superfamily Microlaimoidea based on combined rDNA sequences confirmed the placement of Hypodontolaimus minus sp. nov. and Bolbolaimus distalamphidus sp. nov. The subfamily of Chromadorinae is shown as a monophyletic clade, the genera of subfamily Hypodontolaiminae are shown as a paraphyletic group, and the genus of Ptycholaimellus shows high intraspecific diversity. The placement of genera Aponema and Molgolaimus within the superfamily Microlaimoidea is discussed based on combined rDNA sequences. Full article

Density functional theory calculations have been performed to explore the detailed mechanism of a ruthenium-catalyzed dehydrogenative annulation between α-carbonyl phosphonium ylide (A) and sulfoxonium ylide (B). The proposed catalytic cycles consist of several elementary steps in succession, namely the C–H activation of ylide A, the insertion of ylide B, reductive elimination, protodemetallation, and an intramolecular Wittig reaction, in which C–H activation is rate-limiting, with a free energy barrier of 31.7 kcal/mol. As A and B are both capable of being a C–H activation substrate and a carbene precursor, there are potentially four competing pathways including homo-coupling reactions. Further calculations demonstrate that A is more reactive in the C–H activation step than B, while the opposite conclusion is true for the ylide insertion step, which can successfully explain the fact that the solely observed product originated from the use of A as the C–H activation substrate and B as the carbene precursor. Molecular electrostatic potential, charge decomposition, and electron density difference analyses were performed to understand the distinct behaviors of the two ylides and the nature of the key ruthenium–carbene intermediate. Full article

A series of porphyrinoids fused to highly electron-withdrawing bis(thiadiazolo)benzene units have been prepared and spectroscopically characterized. These structures have modified chromophores and exhibit large bathochromic shifts. The nickel(II), copper(II) and zinc complexes of a bis(thiadiazolo)benzoporphyrin were prepared, and these showed strong absorptions above 600 nm that shifted to longer wavelengths with increasing atomic number for the coordinated metal cations. Although the investigated porphyrinoids were poorly soluble, proton NMR data could be obtained, and these demonstrated that the structures possess global aromatic character. This was confirmed with nucleus-independent chemical shift (NICS) calculations and anisotropy of induced current density (AICD) plots. The AICD plots also demonstrate that the fused heterocyclic unit is disconnected from the porphyrinoid π-system, and in this respect, it differs from phenanthroline-fused porphyrinoids as it shows the presence of extended conjugation pathways. Full article

A concerted five-component reaction strategy has been developed, featuring double [3+2] cycloadditions utilizing aspartic acid. This approach provides valuable insights into mechanistic pathways, allowing for the distinction between concerted and stepwise processes based on reaction efficiency and diastereoselectivity. Both aspartic and glutamic acids have been employed for a thorough evaluation and exploration of decarboxylation-driven double annulations. This method effectively constructs pyrrolizidine frameworks through a concerted double 1,3-dipolar cycloaddition with aspartic acid, as well as tetrahydropyrrolizinones via three-component double annulations, which include decarboxylative 1,3-dipolar cycloaddition and lactamization with glutamic acid. These highly convergent, decarboxylation-driven multicomponent reactions (MCRs) efficiently produce fused polyheterocyclic systems while being environmentally friendly, generating only CO₂ and water as byproducts. Full article

Arrhopalites Börner, 1906 includes 40 valid species, with 20 considered troglobionts, exclusive to caves. Arrhopalites beijingensis sp. nov. is the third species from China and the first from a cave habitat, collected in the Xianrendong Cave, Beijing, Junzhuang Town. It resembles several species of the Caecus group, possessing spine-like chaetae on the head, five to seven subsegments on Ant IV with annulated separations, and lacking cuticular spines on Abd VI; it differs from these species in its various characteristics. The mitogenome of A. beijingensis sp. nov. was assembled (14,774 bp in length), marking the first made available from the genus. Due to the incipient number of published mitochondrial genomes of Symphypleona, we downloaded raw sequencing data and performed the assemblies and annotations of 11 species. Our phylogenetic analyses comprised 24 mitogenomes in total; of those, 22 were of Symphypleona and 2 were of outgroups. A. beijingensis sp. nov. was placed closer to Pygmarrhopalites spinosus (Rusek, 1967), with high support. Arrhopalitidae was found as a sister group to Katiannidae, both part of Katiannoidea. The two species of Sminthuridida were placed as a sister group to all other Appendiciphora. More systematic analyses and enhanced sampling from key lineages are needed to better understand Symphypleona’s internal relationships and evolution. Full article

A novel, eco-friendly, and efficient method for constructing 2,3-disubstituted chromone skeletons from readily available water, o-hydroxyaryl enaminones (o-HPEs), and aryldiazonium salts has been developed under mild reaction conditions. This α,β-C(sp²)–H bond difunctionalization/chromone annulation reaction strategy is achieved by building two C(sp³)–O bonds and a C(sp²)-N bond, which provides a practical pathway for the preparation of 2-hydroxy-3-hydrazono-chromones in moderate to excellent yields, enabling broad substrate scope and good functional group tolerance, as well as gram-scale synthesis. This protocol offers a valuable tool for synthesizing diverse functionalized chromones with potential applications in drug discovery and industrial synthesis. Full article

The hydroxylated perhydroquinoxaline 14 was designed by conformational restriction of the prototypical κ receptor agonist U-50,488 and the introduction of an additional polar group. The synthesis of 14 comprised ten reaction steps starting from diethyl 3-hydroxyglutarate (4). The first key step was the diastereoselective establishment of the tetrasubstituted cyclohexane 7 by the reaction of dialdehyde 6 with benzylamine and nitromethane. The piperazine ring was annulated by the reaction of silyloxy-substituted cyclohexanetriamine 8 with dimethyl oxalate. The pharmacophoric structural elements characteristic for κ receptor agonists were finally introduced by functional group modifications. The structure including the relative configuration of the tetrasubstituted cyclohexane derivative (2r,5s)-7a and the perhydroquinoxaline 9 was determined unequivocally by X-ray crystal structure analysis. The hydroxylated perhydroquinoxaline 14 showed moderate κ receptor affinity (K_i = 599 nM) and high selectivity over μ, δ, σ₁, and σ₂ receptors. An ionic interaction between the protonated pyrrolidine of 14 and D138 of κ receptor anchors 14 in the κ receptor binding pocket. Full article

Azulene-based polycyclic hydrocarbons have garnered much attention as potential materials for organic optoelectronic devices and as molecular models for graphene nanosheets with structural defects. Although various methods for ring fusions to an azulene core have been established for ring fusions to an azulene core, efficient synthetic methodologies for ortho- and peri-fusion to an azulene core are still lacking, which hinders the investigation of the effect of the ortho- and peri-fusion on the electronic properties of the embedded azulene core. Herein, we describe the synthesis and characterization of quinoxaline-fused cyclopenta[cd]azulene 4 as a new ortho- and peri-fused azulene derivative. The target molecule 4 was successfully synthesized in four steps from 4-methylazulene. The ring annulation decreased the lowest excitation energy compared with that of azulene and its structural isomer 5 and led to multiple reversible reduction processes. Characterization of the molecular geometry and optoelectronic properties of 4 revealed that the embedded azulene core preserves its original aromaticity, while the fused quinoxaline acts as a nucleophilic and basic site. These features suggest that 4 could serve as a metal ligand, a near-infrared absorber, and a component in organic functional devices. Full article

Bladder cancer is a globally prevalent urological malignancy, with transitional carcinoma (TCC) representing the majority of cases. Cisplatin is the primary drug for metastatic bladder cancer chemotherapy; however, its application is limited by nephrotoxicity and resistance. Signal Transducer and Activator of Transcription 3 (STAT3) is an oncogenic transcription factor often overactivated in various cancers, making it an appealing drug target. Fucoxanthin, a marine carotenoid, has significant anticancer properties. This study explored Fucoxanthin’s cytotoxic effects and its potential to potentiate the efficacy of Cisplatin, along with the mechanisms underlying these effects, on human bladder TCC cells. We demonstrated that Fucoxanthin is cytotoxic to bladder TCC cells by inducing apoptosis, evidenced by z-VAD-fmk-mediated annulment of Fucoxanthin’s cytotoxicity. Furthermore, Fucoxanthin reduced the levels of inherent or interleukin-6-induced tyrosine 705-phosphorylated STAT3 accompanied by downregulating BCL-xL, a well-established STAT3 target. Notably, ectopic expression of STAT3-C, a dominant-active STAT3 mutant, or BCL-xL thwarted Fucoxanthin’s proapoptotic and cytotoxic actions. Moreover, Fucoxanthin at subtoxic dosages enhanced the susceptibility to Cisplatin-induced apoptosis of bladder TCC cells initially resistant to Cisplatin. Remarkably, this Cisplatin-sensitizing effect of Fucoxanthin was abrogated when cells ectopically expressed STAT3-C or BCL-xL. Overall, for the first time, we proved that the proapoptotic, cytotoxic, and Cisplatin-sensitizing effects of Fucoxanthin on human bladder TCC cells are attributed to the blockade of the STAT3/BCL-xL axis. Our findings highlight that targeting the STAT3/BCL-xL axis is a promising strategy to eliminate bladder TCC cells and facilitate Cisplatin sensitization, and further support the potential of incorporating Fucoxanthin into Cisplatin-based chemotherapy for treating bladder cancer. Full article