Synthesis and antitumor activity of isolongifoleno[7,8‐d]thiazolo[3,2‐a]pyrimidine derivatives via enhancing ROS level

A series of novel isolongifoleno[7,8‐d]thiazolo[3,2‐a]pyrimidine derivatives ( 4a – 4x ) were synthesized from isolongifolanone according fragment‐based design strategy, and their anticancer activity against human aortic smooth muscle cells (HASMC), human breast cancer (MCF‐7) cells, human cervical cancer (HeLa) cells, and human liver cancer (HepG2) cells were investigated. Results of the anticancer activity illustrated that most of the compounds showed potent antitumor activity and compound 4i proved to be the most active derivative with IC₅₀ values of 0.33 ± 0.24 (for MCF‐7 cells), 0.52 ± 0.13 (for HeLa cells), and 3.09 ± 0.11 μM (for HepG2 cells), respectively. Moreover, we assessed the effects of 4i on cell apoptosis, cell cycle distribution, mitochondrial membrane potential, and reactive oxygen species (ROS) generation. The results indicated that compound 4i altered mitochondrial membrane potential and produced ROS leading to cell apoptosis of MCF‐7 cells in a dose‐dependent manner, however, without affecting cell cycle progression. These findings suggested that 4i was an effective compound and provided a promising candidate for anticancer drugs.     

Design,synthesis and pharmacophoric model building of new 3‐alkoxymethyl/3‐phenyl indole‐2‐carboxamides with potential antiproliferative activity

Novel 3‐alkoxymethyl/3‐phenyl indole‐2‐carboxamide derivatives were synthesized and evaluated for their anticancer activity. Most of the tested compounds showed moderate to excellent activity against the tested cell lines (MCF7 and HCT116). 3‐Phenyl substitution on indole with p‐piperidinyl phenethyl 24a and p‐dimethylamino phenethyl 24c exhibited anticancer activity against MCF7 with IC₅₀ of 0.13 and 0.14 μm , respectively. Further mechanistic study of the most active compounds through their action on cell cycle showed disturbance in cell cycle progression and cell cycle arrest. For future development of this series of compounds, pharmacophore study was conducted which indicated that the enhancement of the activity could be achieved through the addition of acceptor or donating groups to the already‐present indole nucleus.     

Design and synthesis of 4′‐((5‐benzylidene‐2,4‐dioxothiazolidin‐3‐yl)methyl)biphenyl‐2‐carbonitrile analogs as bacterial peptide deformylase inhibitors

Herein, we report the synthesis and screening of 4′‐((5‐benzylidene‐2,4‐dioxothiazolidin‐3‐yl)methyl)biphenyl‐2‐carbonitrile analogs 11(a–j) as bacterial peptide deformylase (PDF) enzyme inhibitors. The compounds 11b (IC₅₀ value = 139.28 μm ), 11g (IC₅₀ value = 136.18 μm ), and 11h (IC₅₀ value = 131.65 μm ) had shown good PDF inhibition activity. The compounds 11b (MIC range = 103.36–167.26 μg/mL), 11g (MIC range = 93.75–145.67 μg/mL), and 11h (MIC range = 63.61–126.63 μg/mL) had also shown potent antibacterial activity when compared with standard ampicillin (MIC range = 100.00–250.00 μg/mL). Thus, the active derivatives were not only PDF inhibitors but also efficient antibacterial agents. To gain more insight on the binding mode of the compounds with PDF enzyme, the synthesized compounds 11(a–j) were docked against PDF enzyme of Escherichia coli and compounds exhibited good binding properties. The results suggest that this class of compounds has potential for development and use in future as antibacterial drugs.     

A Facile One‐Pot Synthesis of 2‐Arylamino‐5‐Aryloxylalkyl‐1,3,4‐Oxadiazoles and Their Urease Inhibition Studies

A one‐pot method for the synthesis of structural type urease inhibitors, 2‐amino‐1,3,4‐oxadiazoles, was developed. The structures of the compounds were established using spectroanalytical techniques and unambiguously confirmed by single‐crystal X‐ray analysis of compound 3o . The synthesized compounds were tested against jack beans urease, and most of the compounds ( 3c , 3g , 3j , 3k , 3n , 3r – 3v ) were found more active than the standard. The most potent compound ( 3u ) had an IC₅₀ value of 6.03 ± 0.02 μm as compared to the IC₅₀ value of the standard (thiourea; 22.0 ± 1.2 μm ). The prominent urease inhibition activity of these compounds may serve as an important finding in the development of less toxic and more potent antiulcer drugs. The compounds were also investigated against four bacterial strains, and some of the compounds ( 3g and 3r ) were found more potent than the standard drug (ciprofloxacin) against all the tested strains. The MIC value for compound 3g was 0.156 μmol/mL against the tested bacterial strains.     

Reprofiling of full‐length phosphonated carbocyclic 2′‐oxa‐3′‐aza‐nucleosides toward antiproliferative agents: Synthesis,antiproliferative activity,and molecular docking study

A series of phosphonated carbocyclic 2 ′ ‐oxa‐3 ′ ‐aza‐nucleosides were synthesized via 1,3 dipolar cycloaddition and evaluated for their in vitro antiproliferative activity against the growth of cancer cell lines (MCF‐7, A2780, HCT116) and normal non‐transformed fibroblast (MRC5) using MTT assay. Synthesized compounds exhibited antiproliferative activity in the micromolar range. Compounds 11b showed the highest activity against MCF‐7 cells (IC₅₀ of 0.2344 μm ). Cell cycle analysis was performed for compound 11b on MCF7 cells showing arrest of cells in the S phase. Molecular docking of synthesized compounds confirmed high affinity of these compounds to two different receptors for anticancer nucleosides on dCK, namely the 1P5Z and 2ZIA, showing scores higher than the cognate ligand for all tested compounds. All synthesized compounds were evaluated according to the Lipinski, Veber, and Opera rules, and all of them passed the evaluation showing excellent features, superior to reference drugs. In addition, ADME for all the synthesized compounds was predicted through a theoretical kinetic study using the discovery studio 3.1 software.     

One‐Pot Laccase‐Catalysed Synthesis of 5,6‐Dihydroxylated Benzo[b]furans and Catechol Derivatives,and Their Anticancer Activity

A commercial laccase, Suberase® from Novozymes, was used to catalyse the synthesis of 5,6‐dihydroxylated benzo[b]furans and catechol derivatives. The yields were, in some cases, similar to or better than that obtained by other enzymatic, chemical or electrochemical syntheses. The synthesised derivatives were screened against renal (TK10), melanoma (UACC62), breast (MCF7) and cervical (HeLa) cancer cell lines. GI₅₀, TGI and LC₅₀ are reported for the first time. Anticancer screening showed that the cytostatic effects of the 5,6‐dihydroxylated benzo[b]furans were most effective against the melanoma (UACC62) cancer cell line with several compounds exhibiting potent growth inhibitory activities (GI₅₀ = 0.77–9.76 µM), of which two compounds had better activity than the anticancer agent etoposide (GI₅₀ = 0.89 µM). One compound exhibited potent activity (GI₅₀ = 9.73 µM) against the renal (TK10) cancer cell line and two exhibited potent activity (GI₅₀ = 8.79 and 9.30 µM) against the breast (MCF7) cancer cell line. These results encourage further studies of the 5,6‐dihydroxylated benzo[b]furans for their potential application in anticancer therapy.     

Design,Synthesis, and In Vitro Evaluation of Novel 3, 7‐Disubstituted Coumarin Derivatives as Potent Anticancer Agents

Twenty‐seven 3, 7‐disubstituted coumarin derivatives were designed, synthesized, and evaluated in vitro as anticancer agents. Most of the compounds showed moderate‐to‐potent antiproliferative activity against K562 cells. Compounds 7b and 7d were chosen to evaluate the concentration of 50% growth inhibition (GI₅₀) against SN12C, OVCAR, BxPC‐3, KATO‐III, T24, SNU‐1, WiDr, HeLa, K562, and AGS cell lines. The most potent compound 7d was selected for further cell cycle arrest assay in the AGS cell line. The in vitro data indicated that methylation of benzimidazole moiety at the 3‐position of coumarin exhibited significant enhancement of anticancer activity. This study should provide important information for further modification and optimization of coumarin derivatives as anticancer agents.     

Synthesis and Antimicrobial Evaluation of 6‐Alkylamino‐N‐phenylpyrazine‐2‐carboxamides

This work presents synthesis and antimicrobial evaluation of nineteen 6‐alkylamino‐N–phenylpyrazine‐2‐carboxamides. Antimycobacterial activity was determined against Mycobacterium tuberculosis H37Rv, M. kansasii and two strains of M. avium. Generally, the antimycobacterial activity increased with prolongation of simple alkyl chain and culminated in compounds with heptylamino substitution ( 3e , 4e ) with MIC = 5–10 μm against M. tuberculosis H37Rv. On the contrary, derivatives with modified alkyl chain (containing e.g. terminal methoxy or hydroxy group) as well as phenylalkylamino derivatives were mainly inactive. The most active compounds (with hexyl to octylamino substitution) were evaluated for their in vitro activity against drug‐resistant strains of M. tuberculosis and possessed activity comparable to that of the reference drug isoniazid. None of the tested compounds were active against M. avium. Some derivatives exhibited activity against Gram‐positive bacteria including methicillin‐resistant Staphylococcus aureus (best MIC = 7.8 μm ), while Gram‐negative strains as well as tested fungal strains were completely unsusceptible. Active compounds were tested for in vitro toxicity on various cell lines and in most cases were non‐toxic up to 100 μm .     

Synthesis of Methoxy‐substituted Chalcones and in vitro Evaluation of their Anticancer Potential

Methoxy‐substituted chalcones, 3 were obtained using simple, efficient method from 2‐naphtylethanone, 1 and aromatic aldehydes, 2. The in vitro cytotoxicity activities of the chalcones against a panel of three human cancer cell lines were explored. The tested compounds were found to possess significant cytotoxic activity. The DNA strand break and damage was quantified through alkaline comet assay, flow cytometric analysis, and chromatin condensation studies, which revealed the apoptotic nature of the compounds. Compound 3c, (3‐(3,4,5‐trimethoxyphenyl)‐1‐(2‐naphthyl) prop‐2‐en‐1‐one) showed highest cytotoxicity of 0.019 μm against HeLa, 0.020 μm against HCT15 and 0.022 μm against A549. Compound 3e, (3‐(3,5‐dimethoxyphenyl)‐1‐(2‐naphthyl) prop‐2‐en‐1‐one) showed better IC50 values against all the three cell lines employed for the study.     

Design,Synthesis, and Antitumor Activity of (E,Z)‐1‐(dihydrobenzofuran‐5‐yl)‐3‐phenyl‐2‐(1,2,4‐triazol‐1‐yl)‐2‐propen‐1‐ones

A series of (E,Z)‐1‐(dihydrobenzofuran‐5‐yl)‐3‐phenyl‐2‐(1,2,4‐triazol‐1‐yl)‐2‐propen‐1‐ones ( C1 – C35 ) were designed and synthesized, and the structures of compounds (Z)‐ C27 and (Z)‐ C29 were confirmed by single‐crystal X‐ray diffraction. The antitumor activities of these novel compounds against cervical cancer (HeLa), lung cancer (A549), and breast cancer (MCF‐7) cell lines were evaluated in vitro. Majority of the title compounds exhibited strong antitumor activities and were much more promising than the positive control Taxol, which were also accompanied by lower cytotoxicity to normal cells. In particular, compounds (E,Z)‐ C24 exhibited the most consistent potent activities against three neoplastic cells with IC₅₀ values ranging from 3.2 to 7.1 μm . Further researches demonstrated that compounds (E,Z)‐ C24 could induce cell apoptosis and arrest cell cycle at the G2/M and S phases. Meanwhile, the structure–activity relationship between the configurations and cytotoxicity of the compounds was also investigated.     

Synthesis of new pyrazolo[3,4‐d]pyrimidine derivatives and evaluation of their anti‐inflammatory and anticancer activities

This study reports the synthesis of two series of new purine bioisosteres comprising a pyrazolo[3,4‐d]pyrimidine scaffold linked to piperazine moiety through different amide linkages. The newly synthesized compounds were evaluated for anticancer activity against four cell lines (MDA‐MB‐231, MCF‐7, SF‐268, B16F‐10) and cyclooxygenase (COX‐2) protein expression inhibition in lipopolysaccharide (LPS)‐activated rat monocytes. The results revealed that most of the synthesized compounds showed moderate‐to‐high cytotoxic activity against at least one cell line, with compound 10b being the most active against all used cell lines (IC₅₀ values 5.5–11 μg/ml) comparable to cisplatin. In addition, six of these compounds ( 7b, 10a–d, and 12c ) demonstrated inhibition of LPS‐induced COX‐2 protein expression at low concentration (25 μg/ml) as compared to the control non‐stimulated cells and showed a COX‐2 selectivity index range comparable to diclofenac sodium. The overall results indicate that many of these pyrazolopyrimidine derivatives possess in vitro anti‐inflammatory and anticancer activities at varying doses, and the most active compounds will be subjected to in vivo pharmacological evaluation.     

Synthesis and Biological Evaluation of Mercapto Triazolo‐Benzothiadiazine Linked Aminobenzothiazoles as Potential Anticancer Agents

The synthesis of a series of 10‐substituted 5,5‐dioxo‐5,10‐dihydro[1,2,4]triazolo[4,3‐b][1,2,4]benzothiadiazine coupled with sulfanylacetamido benzothiazole pharmacophores ( 5a – g ) is described. All the synthesized compounds have been evaluated for their anticancer activity. Most of the compounds showed significant growth inhibitory activity against selected human tumor cell lines. Interestinlgy, one of the synthesized compounds 5d, exhibited GI₅₀ values of 1.4 and 2.1 μm against RPMI‐8226 (leukemia) and HOP‐62 (lungs) cell lines, respectively.     

Rational drug design of indazole‐based diarylurea derivatives as anticancer agents

A series of novel indazole‐based diarylurea derivatives targeting c‐kit were designed by structure‐based drug design. The derivatives were prepared, and their antiproliferative activities were evaluated against human colon cancer HCT‐116 cell line and hepatocellular carcinoma PLC/PRF/5 cell line. The antiproliferative activities demonstrated that six of nine compounds exhibited comparable activities with sorafenib against HCT‐116. The structure–activity relationship (SAR) analysis indicated that the indazole ring part tolerated different kinds of substituents, and the N position of the central pyridine ring played key roles in antiproliferative activity. The SAR and interaction mechanisms were further explored using molecular docking method. Compound 1i with N‐(2‐(pyrrolidin‐1‐yl)ethyl)‐carboxamide possessed improved solubility, 596.1 ng/ml and best activities, IC₅₀ at 1.0 μm against HCT‐116, and 3.48 μm against PLC/PRF/5. It is a promising anticancer agent for further development.     

Anticancer Properties of Novel 4‐methylene‐1,2‐diphenylpyrazolidin‐3‐ones

The limited success of the currently used antitumor therapies is the driving force for organic chemists to seek new lead structures with anticancer potential. Two α‐methylene‐γ‐lactams with an additional nitrogen atom in the lactam ring, 5‐vinyl‐1,2‐diphenyl‐4‐methylenepyrazolidin‐3‐one ( 2a ) and 5‐phenyl‐1,2‐diphenyl‐4‐methylenepyrazolidin‐3‐one ( 2b ) have been synthesized. Their anticancer activity was assessed in MCF‐7 cells. Both compounds inhibited cell proliferation and induced DNA damage and apoptosis, with 2a being the more potent analog. Synergistic effects of 2a used in combination with known anticancer drugs, 5‐fluorouracil, taxol, and oxaliplatin were evaluated. Compound 2a significantly enhanced the antitumor action of oxaliplatin and 5‐fluorouracil, but not taxol.     

Synthesis and Biological Evaluation of a Series of 2‐((1‐substituted‐1H‐1,2,3‐triazol‐4‐yl)methylthio)‐6‐(naphthalen‐1‐ylmethyl)pyrimidin‐4(3H)‐one As Potential HIV‐1 Inhibitors

A series of novel S‐DABO derivatives with the substituted 1,2,3‐triazole moiety on the C‐2 side chain were synthesized using the simple and efficient CuAAC reaction, and biologically evaluated as inhibitors of HIV‐1. Among them, the most active HIV‐1 inhibitor was compound 4‐((4‐((4‐(2,6‐dichlorobenzyl)‐5‐methyl‐6‐oxo‐1,6‐dihydropyrimidin‐2‐ylthio)methyl)‐1H‐1,2,3‐triazol‐1‐yl)methyl)benzenesulfonamide ( B5b7) , which exhibited similar HIV‐1 inhibitory potency (EC₅₀ = 3.22 μm ) compared with 3TC (EC₅₀ = 2.24 μm ). None of these compounds demonstrated inhibition against HIV‐2 replication. The preliminary structure–activity relationship (SAR) of these new derivatives was discussed briefly.     

3‐Aminomethyl pyridine chalcone derivatives: Design,synthesis, DNA binding and cytotoxic studies

Herein we report design, synthesis, and anticancer activity of compounds 6a–h and 11a–j . Compounds 6a–f were designed based on 3‐aminomethyl pyridine attached to different acetamide derivatives and in compounds 6g–h it was attached to coumarin moiety. Coumarin containing compounds 6g–h showed very poor anticancer activity against both A549 (Lungs cancer cell line), and MCF‐7 (Breast cancer cell line) cell lines in MTT assay. Compounds 11a–j were designed as derivatives of 3‐aminomethyl pyridine and 4‐amino chalcones. A series of chalcone derivatives of 3‐aminomethyl pyridine 11a–j have been synthesized and screened for their in vitro anticancer activity and DNA binding affinity. Most of the compounds showed very good antimitotic activity against A549 cell line as compared to fluorouracil. Compounds 11g and 11i were selected for DNA‐binding studies as they showed excellent activity against cancer cell lines in MTT assay. CT‐DNA binding affinity of compounds 11g and 11i have been investigated by UV based DNA titration and fluorescence emission study against DNA‐EtBr complex. Interestingly, compound 11i has displayed excellent antiproliferative activity, with IC₅₀ 0.0067 ± 0.0002 μm , against MCF‐7 cell line. Compound 11i has been studied for its cytotoxicity using MTT, LDH, as well as EtBr/AO assay and was found to induce apoptosis in the cancerous cell line.     

Synthesis,cytotoxic activity,and 2D‐ and 3D‐QSAR studies of 19‐carboxyl‐modified novel isosteviol derivatives as potential anticancer agents

Two series of novel acylthiosemicarbazide and oxadiazole fused‐isosteviol derivatives were synthesized based on the 19‐carboxyl modification. The target compounds were evaluated for their cytotoxicities against three cancer cell lines (HCT‐116, HGC‐27, and JEKO‐1) using an MTT assay. Lead compounds from the acylthiosemicarbazides ( 4 ) showed IC₅₀ values in the lower micromolar range. For example, compounds ( 4i , 4l , 4m , 4r, and 4s ) exhibited significant inhibitory activities against the three cell lines with IC₅₀ values of 0.95–3.36 μm . Furthermore, 2D‐HQSAR and 3D‐topomer CoMFA analyses were established, which could be used to develop second generation of isosteviol derivatives as anticancer agents.