Double Regioselective Thermal Azide-Alkyne Cycloaddition of 1,3-Diynes.

A double regioselective cycloaddition reaction of 1,3-diynes with azide is reported to synthesize fully substituted 5-alkynyl-1,2,3-triazoles without any catalyst, metal, or other factor. Computational studies revealed that the 5-alkynyl-1,2,3-triazole derivative is both kinetically and thermodynamically favorable irrespective of the nature of the substituents at the alkyne termini in 1,3-diynes. The simplicity of the reaction, extremely high regioselectivity under metal-free conditions, wide substrate scope, and good to excellent yields might inspire further studies of the cycloaddition of 1,3-diynes in addition to click chemistry.

L-proline H2SO4 catalyzed synthesis of novel coumarin-based spiroindolino-3,4-dihydropyrimidin-2(1H)-ones: in vitro cytotoxic assay and molecular docking study.

Development of environmentally benign catalyst systems, especially those derived from readily available nature's pool, in multicomponent synthesis, consolidates multiple facets of green chemistry. Here, an L-proline derived green acid catalyst in the form of L-proline⋅H2SO4 was developed and employed for multicomponent synthesis of coumarin-based spiroindolino-3,4-dihydropyrimidin-2(1H)-ones from the reaction of 4-hydroxycoumarin, isatin and urea/thiourea. Preliminary cytotoxicity studies showed that a couple of compounds (M5 and M6) have good cytotoxicity (40-50%) against in Dalton's Lymphoma (DL) cells while demonstrating minimal cytotoxicity (10-12%) for normal non-cancerous cell lines. Molecular docking simulations for the least and most cytotoxic compounds, M3 and M6 respectively, against nineteen tumor target proteins were carried out, and seven of them were identified to test against all the sixteen compounds. Based on the estimated docking score and inhibition constants (Ki), the interaction of the compounds with the tumor target protein, beta-hexosaminidase B (PDB ID: 1NOW) matched closely with in vitro cytotoxicity data.

1,2,3-Triazole tethered 1,2,4­trioxane trimer induces apoptosis in metastatic cancer cells and inhibits their proliferation, migration and invasion.

Artemisinin (ART) has been in use against different cancer cells and its derivatives and conjugates are more cytotoxic to iron-rich cancer cells. It is desirable to develop easily achievable synthetic 1,2,4-trioxanes having the same pharmacophore as that of ART. To explore more efficient compounds, a 1,2,3-triazole tethered 1,2,4­trioxane trimer (4T) was synthesized and the anti-cancer effects of ART and 4T on MDA-MB-435 and MDA-MB-231 cells were investigated concerning regulation of osteopontin (OPN) expression, which is associated with cancer progression and malignancy. 1H NMR and 13C NMR, oxidative stress analysis, flow cytometry, western blot, Real-Time PCR, transfections, luciferase assay, cell viability, proliferation, migration and chemotactic invasion assays were used in this study. It was observed that the 4T induced apoptosis by inhibiting Bcl-2 (~0.6-fold) and cleavage of caspase-3 (intrinsic pathway) in these metastatic cancer cells, and also reduced colony formation, migration and invasion of these cancer cells. The treatment of 4T decreased the reduced glutathione level and increased the activities of glucose-6-phosphate dehydrogenase and glutathione reductase in the 4T treated cancer cells as compared to their respective controls. Further, the expression of OPN was diminished (~0.5-fold) by the 4T in these cell lines. It was also observed that the key mitogen-activated protein kinase pathway proteins, mitogen-activated protein kinase kinase1/2 (~1.8-fold) and extracellular signal-regulated kinase1/2 (~16-fold), were also activated following the treatment of the 4T. However, the phosphorylated c-Jun level, a component of activator protein-1, was significantly reduced in these cancer cells upon 4T treatment. Taken together, we hypothesize that 4T may be useful for controlling cancer progression and malignancy.

Augmentation of Enantioselectivity by Spatial Tuning of Aminocatalyst: Synthesis of 2-Alkyl/aryl-3-nitro-2H-chromenes by Tandem Oxa-Michael-Henry Reaction.

The asymmetric oxa-Michael addition of salicylaldehyde to conjugated nitroalkenes often suffers from poor reactivity and selectivity and a long reaction time. Because of the formation of an iminium ion with aminocatalyst, the nucleophilicity of the phenolic hydroxy group in salicylaldehyde reduces further to make the oxa-Michael reaction reversible. Here, we report a structurally simple and easily accessible l-proline derived aminocatalyst, phenyl l-prolinamide, for asymmetric tandem oxa-Michael-Henry reaction of salicylaldehyde with conjugated nitroalkene to give 2-alkyl/aryl-3-nitro-2H-chromenes in excellent enantioselectivity within a short reaction time.

PPL catalyzed four-component PASE synthesis of 5-monosubstituted barbiturates: Structure and pharmacological properties.

Enzymatic four-component reactions are very rare although three-component enzymatic promiscuous reactions are widely reported. Herein, we report an efficient PASE protocol for the synthesis of potentially lipophilic zwitterionic 5-monosubstituted barbiturates by four component reaction of mixture of ethyl acetoacetate, hydrazine hydrate, aldehyde and barbituric acid in ethanol at room temperature. Seven different lipases were screened for their promiscuous activity towards the synthesis of 5-monosubstituted barbiturates and the lipase from porcine pancreas (PPL) found to give optimum efficiency. The zwitterionic 5-monosubstituted barbiturates with pyrazolyl ring showed promising pharmacological activity upon screening for antibacterial and apoptotic properties.

A green four-component synthesis of zwitterionic alkyl/benzyl pyrazolyl barbiturates and their photophysical studies.

A novel series of unsymmetrically substituted alkyl/benzyl pyrazolyl barbiturates incorporating highly biologically active pyrazolone and barbiturate moieties was synthesized by four-component reactions of a mixture of ethyl acetoacetate, hydrazine hydrate, aldehydes and barbituric acid/thiobarbituric acid in ethanol without using a catalyst. The photophysical properties of the newly designed alkyl/benzyl pyrazolyl barbiturates were studied, and good quantum yield of some products indicated a definitive scope in the field of biochemical applications. Single-crystal X-ray crystallographic studies revealed that the newly synthesized compounds exist in zwitterionic form. The zwitterionic nature of the new chimera makes them interesting candidates for drug delivery as zwitterionic drugs are known to have highly water soluble properties, specific protein absorption, slow recognition by immune system, slow blood clearance from body and can constantly diffuse and deposit throughout the physiological pH.

Anti-pinworm activity of novel coumarin-based trisubstituted methanes in Syphacia obvelata-infected mice.

The control of pinworms mainly relies on use of anthelmintic drugs. At present, there exists only few medications against pinworms, and their repeated use pose a serious risk of resistance development. Therefore, new anti-pinworm drugs are required to overcome the risk of resistance. This study reports the anti-pinworm activity of three novel coumarin-based trisubstituted methanes (TRSMs), i.e., 6-Amino-5-((4-hydroxy-2-oxo-2H-chromen-3-yl)(4-fluoro-phenyl)methyl)-1,3-dimethyl-pyrimidine-2,4(1H,3H)-dione (1), 6-Amino-5-((4-hydroxy-2-oxo-2H-chromen-3-yl)(4-chlor-ophenyl)methyl)-1,3-dimethyl-pyrimidine-2,4(1H,3H)-dione (2) and 6-Amino-5-((4-hydroxy-2-oxo-2H-chromen-3-yl)(4-bromophenyl)methyl)-1,3-dimethyl-pyrimidine-2,4(1H,3H)-dione (3) in Syphacia obvelata-infected mice. The oral acute toxicity of compounds was examined using the OECD guidelines. The findings of this study reveal that TRSM analogues 1 and 2, at a single 80 mg/kg dose given for 5 days, can reduce about 90% of pinworm worm burden in mice, compared to 98% worm reduction shown by 20 mg/kg dose of albendazole, the reference drug, on the 12 day of infection. In particular, the fluoro-and bromo-substituents in the phenyl ring of synthesized derivatives greatly influence the efficacy of candidates. The oral acute toxicity of TRSMs was observed to be greater than 2000 mg/kg body weight for mice. Taken together, our study suggests that studied novel coumarin-based trisubstituted methanes could serve as suitable candidates for the development of new anti-pinworm drugs.

1,2,3-Triazole tethered 1,2,4-trioxanes: Studies on their synthesis and effect on osteopontin expression in MDA-MB-435 breast cancer cells.

Artemisinin and its analogs have shown potent anticancer activity in primary cancer cultures and cell lines by inhibiting cancer proliferation, metastasis, and angiogenesis. Despite its apparent compatibility to normal cells and low IC50 values in comparison to the commonly used anticancer drugs, the underlying mechanisms behind their cytotoxic effects are not yet fully understood. Surprisingly, the efficacy of synthetic 1,2,4-trioxanes against cancer has not been explored yet. Given the high antitumor activity of artemisinin dimers in comparison to their monomers, we report here the synthesis of simple 1,2,3-triazole conjugated 1,2,4-trioxanes and their potential antitumor activity by studying their inhibitory effect on osteopontin (OPN) expression in MDA-MB-435 breast cancer cells. It may be noted that despite being a strong marker to identify human tumor metastasis, no study on effect of artemisinin and its synthetic and semisynthetic derivatives on OPN expression has ever been studied. Although our initial studies did not notice any straight-line relationship between the number of trioxane units in a molecule to the extent of inhibition of OPN protein expression, we could observe better results in some cases in comparison to artemisinin. We have observed that artemisinin did not show appreciable OPN downregulation in MDA-MB-435 cancer cells, but dihydroartemisinin (DHA) and some synthetic 1,2,4-trioxane monomers and dimers showed downregulation of OPN expression. Therefore, these compounds may act as an anti-metastatic agent in controlling breast cancer cells metastasis.

Novel coumarin derivatives as potent acetylcholinesterase inhibitors: insight into efficacy, mode and site of inhibition.

The inhibitory efficacy of two substituted coumarin derivatives on the activity of neurodegenerative enzyme acetylcholinesterase (AChE) was assessed in aqueous buffer as well as in the presence of human serum albumin (HSA) and compared against standard cholinergic AD drug, Donepezil (DON). The experimental data revealed the inhibition to be of non-competitive type with both the systems showing substantial inhibitory activity on AChE. In fact, one of the tested compounds Chromenyl Coumarate (CC) was found to be better inhibitor (IC50 = 48.49 ± 5.6 nM) than the reference drug DON (IC50 = 74.13 ± 8.3 nM), unequivocally amplifying its importance. The structure of the compound was found to play a vital role in the inhibitory efficiency, validating previous Structure Activity Relationship (SAR) reviews for coumarin. The mechanism of inhibition remained impervious when the experimental medium was switched from aqueous buffer to HSA, albeit noticeable change in the inhibition potency of the compound 3, 3'- Methylene-bis (4-hydroxy coumarin) (MHC) (38%) and CC (35%). Both the coumarin derivatives were observed to bind to the peripheral anionic site (PAS) of AChE and also found to displace the fluorescence marker thioflavinT (ThT) from AChE binding pocket. All experimental observations were seconded by molecular docking and MD simulation results. The inferences drawn in this study form a foundation for further investigation on these compounds; magnifying the probability of their usage as AD drugs and re-emphasizes the significance of drug delivery media while considering the inhibition potencies of targeted drugs.

Chemoselective isocyanide insertion into the N-H bond using iodine-DMSO: metal-free access to substituted ureas.

Insertion of isocyanides into the N-H bond gives access to many medicinally important and structurally diverse complex nitrogen-containing heterocycles. Although the transition metal catalyzed isocyanide insertion into the N-H bond is very common, polymerization of isocyanides in the presence of a transition metal and their strong coordination with metals are the common drawbacks. On the other hand, the inertness of most of the isocyanides towards amines in the absence of a metal catalyst has stymied the growth of the metal-free approach for isocyanide insertion into amines. As a result, only a handful of metal catalysed methods with limited substrate scopes have been reported for the synthesis of ureas via isocyanide insertion into amines and no metal-free version has been reported yet. Interestingly, chemoselective isocyanide insertion into amines has not been reported in the literature. We employed the I2-DMSO reagent system for the chemoselective synthesis of ureas, where isocyanides react with aliphatic amines only, while aromatic amines need a nucleophilic activator (DABCO) to facilitate the formation of ureas. This method gave direct and chemoselective access to ureas by evading the commonly used yet toxic isocyanates.

Some new aspects of the Boyer reaction.

[reaction: see text] The reaction outcome of 2-azidoethanol and aliphatic aldehyde is found to be dependent on the catalyst and the structure of the azido alcohol. Under the catalysis of Cu(II) triflate, the corresponding acetal is obtained. A similar reaction between 2-aryl-2-azidoethanol and aldehyde catalyzed by BF3 yields a mixture of 3-oxazoline and 2-oxazoline. The latter reaction has been used for the preparation of 3-oxazolines in good enantioselectivity.

Gallium(III) chloride-catalyzed double insertion of isocyanides into epoxides.

Gallium(III) chloride-catalyzed double insertion of aryl isocyanides into terminal and disubstituted epoxides leads to alpha,beta-unsaturated alpha-amino iminolactones (3-amino-2-iminio-2,5-dihydrofurans). [reaction: see text]