Synthesis of Novel Chiral Sulfonamide‐Bearing 1,2,4‐Triazole‐3‐thione Analogs Derived from D‐ and L‐Phenylalanine Esters as Potential Anti‐Influenza Agents

Novel enantiopure 1,2,4‐trizole‐3‐thiones containing a benzensulfonamide moiety were synthesized via multistep reaction sequence starting with D‐phenylalanine methyl ester and L‐phenylalanine ethyl ester as a source of chirality. The chemical structures of all compounds were characterized by elemental analysis, UV, IR, ¹H NMR, ¹³C NMR, 2D NMR (HETCOR), and mass spectral data. All compounds were tested in vitro antiviral activity against a broad variety of DNA and RNA viruses and in vitro cytostatic activity against murine leukemia (L1210), human T‐lymphocyte (CEM) and human cervix carcinoma (HeLa) cell lines. Although enantiopure 1,2,4‐triazole‐3‐thione analogs in (R) configuration emerged as promising anti‐influenza A H1N1 subtype in Madin Darby canine kidney cell cultures (MDCK), their enantiomers exhibited no activity. Especially compounds 18a , 21a , 22a , 23a , and 24a (EC₅₀: 6.5, 6.1, 2.4, 1.6, 1.7 μM, respectively) had excellent activity against influenza A H1N1 subtype compared to the reference drug ribavirin (EC₅₀: 8.0 μM). Several compounds have been found to inhibit proliferation of L1210, CEM and HeLa cell cultures with IC₅₀ in the 12–53 μM range. Compound 5a and 27a in (R) configuration were the most active compounds (IC₅₀: 12–22 μM for 5a and IC₅₀: 19–23 μM for 27a ). Chirality 28:495–513, 2016. © 2016 Wiley Periodicals, Inc.     

Novel fluorine‐containing chiral hydrazide‐hydrazones: Design,synthesis, structural elucidation,antioxidant and anticholinesterase activity,and in silico studies

In this study, a series of fluorine‐containing chiral hydrazide‐hydrazone derivatives [III‐XII] from ?‐cysteine ethyl ester hydrochloride was synthesized as new antioxidant and anticholinesterase agents. The antioxidant activity of these derivatives was evaluated by ABTS^+· and DPPH^· scavenging and CUPRAC assays and the anticholinesterase activity by the Ellman method spectrophotometrically. The results of the antioxidant assay showed that compounds V , IX , and X exhibited higher activity than BHT and α‐tocopherol used as positive standards. Among the synthesized derivatives, compound IX (IC₅₀: 2.3 ± 1.6 μM) exhibited higher acetylcholinesterase inhibitory activity than galantamine (IC₅₀: 4.5 ± 0.8 μM). Compounds XI (IC₅₀: 9.6 ± 1.0 μM), IX (IC₅₀: 12.5 ± 1.6 μM), III (IC₅₀: 16.0 ± 1.6 μM), X (IC₅₀: 17.2 ± 1.8 μM), VI (IC₅₀: 20.2 ± 0.8 μM), XII (IC₅₀: 21.5 ± 1.0 μM), and VII (IC₅₀: 24.6 ± 0.6 μM) displayed better butyrylcholinesterase inhibitory activity than galantamine (IC₅₀: 46.03 ± 0.14 μM). ADME‐Tox analysis was used to probe the drug‐like properties of the compounds. Molecular docking studies were also applied to understand the interactions between compounds and targets. The docking calculations were supported by the experimental data. In particular, compound IX , having better activity than galantamine against acetylcholinesterase and butyrylcholinesterase enzymes, was visualized using molecular docking.     

Superbanone,A New 2‐Aryl‐3‐benzofuranone and Other Bioactive Constituents from the Tube Roots of Butea superba

Phytochemical investigation from the tube roots of Butea superba, led to the isolation and identification of a new 2‐aryl‐3‐benzofuranone named superbanone ( 1 ), one benzoin, 2‐hydroxy‐1‐(2‐hydroxy‐4‐methoxyphenyl)‐2‐(4‐methoxyphenyl)ethanone ( 2 ), eight pterocarpans ( 3  –  10 ), and eleven isoflavonoids ( 11  –  21 ). Compound 2 was identified for the first time as a natural product. The structure of the isolated compounds was elucidated using spectroscopic methods, mainly 1D‐ and 2D‐NMR. The isolated compounds and their derivatives were evaluated for α‐glucosidase inhibitory and antimalarial activities. Compounds 3 , 7 , 8 , and 11 showed promising α‐glucosidase inhibitory activity (IC₅₀ = 13.71 ± 0.54, 23.54 ± 0.75, 28.83 ± 1.02, and 12.35 ± 0.36 μm , respectively). Compounds 3 and 11 were twofold less active than the standard drug acarbose (IC₅₀ = 6.54 ± 0.04 μm ). None of the tested compounds was found to be active against Plasmodium falciparum strain 94. On the basis of biological activity results, structure–activity relationships are discussed.     

Synthesis and Anticancer Activity of 3‐(Substituted Aroyl)‐4‐(3,4,5‐trimethoxyphenyl)‐1H‐pyrrole Derivatives

A series of 3‐(substituted aroyl)‐4‐(3,4,5‐trimethoxyphenyl)‐1H‐pyrrole derivatives were synthesized and determined for their anticancer activity against eleven cancer cell lines and two normal tissue cell lines using MTT assay. Among the synthesized compounds, compound 3f was the most potent compound against A375, CT‐26, HeLa, MGC80‐3, NCI‐H460 and SGC‐7901 cells (IC₅₀ = 8.2 – 31.7 μm ); 3g , 3n and 3a were the most potent compounds against CHO (IC₅₀ = 8.2 μm ), HCT‐15 (IC₅₀ = 21 μm ) and MCF‐7 cells (IC₅₀ = 18.7 μm ), respectively. Importantly, all the target compounds showed no cytotoxicity towards the normal tissue cell (IC₅₀ > 100 μm ). Thus, these compounds with the potent anticancer activity and low toxicity have potential for the development of new anticancer chemotherapy agents.     

Effects of arginine and leucine substitutions on anti‐endotoxic activities and mechanisms of action of cationic and amphipathic antimicrobial octadecapeptide from rice α‐amylase

Previously, we showed that the antimicrobial cationic and amphipathic octadecapeptide AmyI‐1‐18 from rice α‐amylase (AmyI‐1) inhibited the endotoxic activity of lipopolysaccharide (LPS) from Escherichia coli. In addition, we demonstrated that several AmyI‐1‐18 analogs containing arginine or leucine substitutions, which were designed on the basis of the helical wheel projection of AmyI‐1‐18, exhibited higher antimicrobial activity against human pathogenic microorganisms than AmyI‐1‐18. In the present study, anti‐inflammatory (anti‐endotoxic) activities of five AmyI‐1‐18 analogs containing arginine or leucine substitutions were investigated. Two single arginine‐substituted and two single leucine‐substituted AmyI‐1‐18 analogs inhibited the production of LPS‐induced nitric oxide in mouse macrophages (RAW264) more effectively than AmyI‐1‐18. These data indicate that enhanced cationic and hydrophobic properties of AmyI‐1‐18 are associated with improved anti‐endotoxic activity. In subsequent chromogenic Limulus amebocyte lysate assays, 50% inhibitory concentrations (IC₅₀) of the three AmyI‐1‐18 analogs (G12R, D15R, and E9L) were 0.11–0.13 μm , indicating higher anti‐endotoxic activity than that of AmyI‐1‐18 (IC_50, 0.22 μm ), and specific LPS binding activity. In agreement, surface plasmon resonance analyses confirmed direct LPS binding of three AmyI‐1‐18 analogs. In addition, AmyI‐1‐18 analogs exhibited little or no cytotoxic activity against RAW264 cells, indicating that enhancements of anti‐inflammatory and LPS‐neutralizing activities following replacement of arginine or leucine did not result in significant increases in cytotoxicity. This study shows that the arginine‐substituted and leucine‐substituted AmyI‐1‐18 analogs with improved anti‐endotoxic and antimicrobial activities have clinical potential as dual‐function host defense agents. Copyright © 2017 European Peptide Society and John Wiley & Sons, Ltd.     

Synthesis and Biological Evaluation of Matijin‐Su Derivatives as Potential Antihepatitis B Virus and Anticancer Agents

A series of Matijin‐Su (MTS, (2S)‐2‐{[(2S)‐2‐benzamido‐3‐phenylpropanoyl]amino}‐3‐phenylpropyl acetate) derivatives were synthesized and evaluated for their anti‐HBV and cytotoxic activities in vitro. Six compounds ( 4g , 4j , 5c , 5g , 5h and 5i ) showed significant inhibition against HBV DNA replication with the IC₅₀ values in range of 2.18 – 8.55 μm , which were much lower than that of positive control lamivudine (IC₅₀ 82.42 μm ). In particular, compounds 5h (IC₅₀ 2.18 μm ; SI 151.59) and 5j (IC₅₀ 5.65 μm ; SI 51.16) displayed relatively low cytotoxicities, resulting in high SI values. Notably, besides the anti‐HBV DNA replication activity, compound 4j also exhibited more potent in vitro cytotoxic activity than 5‐fluorouracil in two hepatocellular carcinoma cell (HCC) lines (QGY‐7701 and SMMC‐7721), indicating that 4j may be a promising lead for the exploration of drugs with dual therapeutic effects on HBV infection and HBV‐induced HCC.     

Evaluation of the antifungal and plasma membrane H+-ATPase inhibitory action of ebselen and two ebselen analogs in S. cerevisiae cultures

The plasma membrane H⁺-ATPase pump (Pma1p) has been proposed as a viable target for antifungal drugs since this high capacity proton pump plays a critical role in the intracellular regulation of pH and in nutrient uptake of yeast and other fungi. In recent years, this and other laboratories have verified that the antifungal activity of 2-phenylbenzisoselenazol-3(2H)-one, an organoselenium compound commonly referred to as ebselen (1), stems, at least in part, from its inhibitory action on the fungal Pma1p. In the present study, the antifungal efficacy of 2-(3-pyridinyl)-benzisoselenazol-3(2H)-one (2) and 2-phenylbenzisoselenazol-3(2H)-one 1-oxide (3), two ebselen analogs, was evaluated using a strain of S. cerevisiae and compared against that of 1. In addition, the study also examined the inhibitory potential of these three compounds toward the Pma1p of S. cerevisiae. Based on mean IC₅₀ values, the antifungal potency was found to decrease in the order 3?>?1?>?2. However, in terms of inhibitory action on Pma1p, the potency decreased in the order 1?>?3?>?2. The magnitude of these activities appears to be correlated with the corresponding log P values, with compound 2 being the most hydrophilic and the least active of the three.     

13,14‐seco‐Withanolides from Physalis minima with Potential Anti‐inflammatory Activity

Four new 13,14‐seco‐withanolides, minisecolides A – D ( 1  –  4 ), together with three known analogues 5  –  7 , were isolated from the whole plants of Physalis minima. The structures of new compounds were determined on the basis of spectroscopic analysis, including ¹H‐, ¹³C‐NMR, 2D‐NMR (HMBC, HSQC, ROESY), and HR‐ESI‐MS. Evaluation of all isolates for their inhibitory effects on nitric oxide (NO) production was conducted on lipopolysaccaride‐activated RAW264.7 macrophages. Compounds 2 , 3 , 5 , and 6 showed inhibitory activities, especially for compound 5 with IC₅₀ value of 3.87 μm .     

Two New Anti‐Proliferative C18‐Norditerpenes from the Roots of Podocarpus macrophyllus

Activity‐guided fractionation strategy was used to investigate chemical constituents from the roots of Podocarpus macrophyllus. Successfully, two new norditerpenes, 2β‐hydroxymakilactone A ( 1 ) and 3β‐hydroxymakilactone A ( 2 ), along with ten known analogues ( 3  –  12 ) were isolated. The structures of 1 and 2 were elucidated by spectroscopic analysis including 1D‐, 2D‐NMR, and HR‐ESI‐MS data. The previously reported structure of 2,3‐dihydro‐2α‐hydroxypodolide was revised as 2,3‐dihydro‐2β‐hydroxypodolide ( 3 ) by spectroscopic analysis, and was further confirmed by X‐ray crystallographic analysis. Cytotoxic activities of all isolated compounds against five human solid tumour cell lines (AGS, HeLa, MDA‐MB‐231, HepG‐2, and PANC‐1) were evaluated. All of them exhibited anti‐proliferative activities (IC₅₀ = 0.3 – 27 μm ), except for 10 . Compounds 1 , 4 , 5 , 6 , and 8 exhibited potent inhibitory activities with IC₅₀ < 1 μm against HeLa and AGS cells.     

Biological Activities of Triterpenoids and Phenolic Compounds from Myrica cerifera Bark

Seven triterpenoids, 1  –  7 , two diarylheptanoids, 8 and 9 , four phenolic compounds, 10  –  13 , and three other compounds, 14  –  16 , were isolated from the hexane and MeOH extracts of the bark of Myrica cerifera L. (Myricaceae). Among these compounds, betulin ( 1 ), ursolic acid ( 3 ), and myricanol ( 8 ) exhibited cytotoxic activities against HL60 (leukemia), A549 (lung), and SK‐BR‐3 (breast) human cancer cell lines (IC₅₀ 3.1 – 24.2 μm ). Compound 8 induced apoptotic cell death in HL60 cells (IC₅₀ 5.3 μm ) upon evaluation of the apoptosis‐inducing activity by flow cytometric analysis and by Hoechst 33342 staining method. Western blot analysis on HL60 cells revealed that 8 activated caspases‐3, ‐8, and ‐9 suggesting that 8 induced apoptosis via both mitochondrial and death receptor pathways in HL60. Upon evaluation of the melanogenesis‐inhibitory activity in B16 melanoma cells induced with α‐melanocyte‐stimulating hormone (α‐MSH), erythrodiol ( 7 ), 4‐hydroxy‐2‐methoxyphenyl β‐d ‐glucopyranoside ( 13 ), and butyl quinate ( 15 ) exhibited inhibitory effects (65.4 – 86.0% melanin content) with no, or almost no, toxicity to the cells (85.9 – 107.4% cell viability) at 100 μm concentration. In addition, 8 , myricanone ( 9 ), myricitrin ( 10 ), protocatechuic acid ( 11 ), and gallic acid ( 12 ) revealed potent DPPH radical‐scavenging activities (IC₅₀ 6.9 – 20.5 μm ).     

New Furanone Derivatives and Alkaloids from the Co‐Culture of Marine‐Derived Fungi Aspergillus sclerotiorum and Penicillium citrinum

Six new compounds including two furanone derivatives sclerotiorumins A and B ( 1 and 2 ), one novel oxadiazin derivative sclerotiorumin C ( 3 ), one pyrrole derivative 1‐(4‐benzyl‐1H‐pyrrol‐3‐yl)ethanone ( 4 ), and two complexes of neoaspergillic acid aluminiumneohydroxyaspergillin ( 5 ) and ferrineohydroxyaspergillin ( 6 ) were isolated from the co‐culture of marine‐derived fungi Aspergillus sclerotiorum and Penicillium citrinum. Compound 3 was the first natural 1,2,4‐oxadiazin‐6‐one. Compound 5 showed significant and selective cytotoxicity against human histiocytic lymphoma U937 cell line (IC₅₀ = 4.2 μm ) and strong toxicity towards brine shrimp (LC₅₀ = 6.1 μm ), and oppositely increased the growth and biofilm formation of Staphylococcus aureus.     

Phenolic Compounds from Clinopodium chinense (Benth.) O. Kuntze and Their Inhibitory Effects on α‐Glucosidase and Vascular Endothelial Cells Injury

Following an in vitro bioactivity‐guided fractionation procedure, 14 compounds including eight flavonoids and six phenylpropanoids were isolated and identified from the AcOEt fraction of Clinopodium chinense (Benth .) O. Kuntze . All constituents were tested for α‐glucosidase and high glucose‐induced injury in human umbilical vein endothelial cells (HUVECs) inhibitory activities. All constituents exhibited varying degrees α‐glucosidase inhibitory activity and protective activity on HUVECs. Among them, luteolin ( 2 ), eriodictyol ( 5 ), ethyl rosmarinate ( 13 ), and clinopodic acids B ( 14 ) were proved to be potent α‐glucosidase inhibitors with IC₅₀ value ranging from 0.6 to 2.0 μm . Additionally, luteolin ( 2 ), naringenin ( 4 ), eriodictyol ( 5 ), ethyl (2R)‐3‐(3, 4‐dihydroxyphenyl)‐2‐hydroxypropanate ( 9 ), caffeic acid ( 11 ), ethyl rosmarinate ( 13 ), and clinopodic acids B ( 14 ) significantly ameliorate HUVECs injury induced by high glucose with an approximate EC₅₀ value of 3 – 36 μm . These results suggest that the 14 bioactive constituents were responsible for hypoglycemic and protective vascular endothelium effect of C. chinense (Benth .) O. Kuntze and their structure–activity relationship was also analyzed briefly. Eriodictyol, luteolin, ethyl rosmarinate, and clinopodic acids B were the potential lead compounds of antidiabetic drugs.     

Synthesis of 3‐Methylidene‐1‐tosyl‐2,3‐dihydroquinolin‐4(1H)‐ones as Potent Cytotoxic Agents

An efficient synthetic strategy to 3‐methylidene‐2,3‐dihydroquinolin‐4(1H)‐ones variously substituted in position 2 has been developed. The title compounds were synthesized in the reaction sequence involving reaction of diethyl methylphosphonate with methyl 2‐(tosylamino)benzoate, condensation of thus formed diethyl 2‐oxo‐2‐(2‐N‐tosylphenyl)ethylphosphonate with various aldehydes followed by successful application of the obtained 3‐(diethoxyphosphoryl)‐1,2‐dihydroquinolin‐4‐ols as Horner–Wadsworth–Emmons reagents for the olefination of formaldehyde. Also, enantioselective approach to the target compounds has been evaluated using 3‐dimenthoxyphosphoryl group as a chiral auxiliary. Single X‐ray crystal analysis of (2S)‐3‐(dimenthoxyphosphoryl)‐2‐phenyl‐1‐tosyldihydroquinolin‐4‐ol revealed the presence of strong resonance‐assisted hydrogen bond (RAHB). The obtained 3‐methylidene‐2,3‐dihydroquinolin‐4(1H)‐ones were then tested for their cytotoxic activity against two leukemia cell lines NALM‐6 and HL‐60 and a breast cancer MCF‐7 cell line. All compounds showed very high cytotoxic activity with the IC₅₀ values mostly below 1 μm in all three cancer cell lines. The selected analogs were also tested on human umbilical vein endothelial cells (HUVEC) and on human mammary gland/breast cells (MCF‐10A) to evaluate their influence on normal cells. Since one of the most serious problems in cancer chemotherapy is the development of drug resistance, the mRNA levels and activity of ABCB1 transporter considered to be the most important factor engaged in drug resistance, were evaluated in MCF‐7 cells treated with two selected analogs. Both compounds were strong ABCB1 transporter inhibitors that could prevent efflux of anticancer drugs from cancer cells.     

Purification of glutathione S‐transferase enzyme from quail liver tissue and inhibition effects of (3aR,4S,7R,7aS)‐2‐(4‐((E)‐3‐(aryl)acryloyl)phenyl)‐3a,4,7,7a‐tetrahydro‐1H‐4,7‐methanoisoindole‐1,3(2H)‐dione derivatives on the enzyme activity

The use of quail meat and eggs has made this animal important in recent years, with its low cost and high yields. Glutathione S‐transferases (GST, E.C.2.5.1.18) are an important enzyme family, which play a critical role in detoxification system. In our study, GST was purified from quail liver tissue with 47.88‐fold purification and 12.33% recovery by glutathione agarose affinity chromatography. The purity of enzyme was checked by SDS‐PAGE method and showed a single band. In addition, inhibition effects of (3aR,4S,7R,7aS)‐2‐(4‐((E)‐3‐(aryl)acryloyl)phenyl)‐3a,4,7,7a‐tetrahydro‐1H‐4,7methanoisoindole‐1,3(2H)‐dion derivatives ( 1a–g ) were investigated on the enzyme activity. The inhibition parameters (IC₅₀ and K_i values) were calculated for these compounds. IC₅₀ values of these derivatives ( 1a–e ) were found as 23.00, 15.75, 115.50, 10.00, and 28.75 μM, respectively. K_i values of these derivatives ( 1a–e ) were calculated in the range of 3.04 ± 0.50 to 131.50 ± 32.50 μM. However, for f and g compounds, the inhibition effects on the enzyme were not found.     

Design of cyclic and d‐amino acids containing peptidomimetics for inhibition of protein‐protein interactions of HER2‐HER3

HER2 receptors are surface proteins belonging to the epidermal growth factor family of receptors. Their numbers are elevated in breast, lung, and ovarian cancers. HER2‐positive cancers are aggressive, have higher mortality rate, and have a poor prognosis. We have designed peptidomimetics that bind to HER2 and block the HER2‐mediated dimerization of epidermal growth factor family of receptors. Among these, a symmetrical cyclic peptidomimetic (compound 18 ) exhibited antiproliferative activity in HER2‐overexpressing lung cancer cell lines with IC₅₀ values in the nanomolar concentration range. To improve the stability of the peptidomimetic, d ‐amino acids were introduced into the peptidomimetic, and several analogs of compound 18 were designed. Among the analogs of compound 18 , compound 32 , a cyclic, d ‐amino acid‐containing peptidomimetic, was found to have an IC₅₀ value in the nanomolar range in HER2‐overexpressing cancer cell lines. The antiproliferative activity of compound 32 was also measured by using a 3D cell culture model that mimics the in vivo conditions. The binding of compound 32 to the HER2 protein was studied by surface plasmon resonance. In vitro stability studies indicated that compound 32 was stable in serum for 48 hours and intact peptide was detectable in vivo for 12 hours. Results from our studies indicated that 1 of the d ‐amino acid analogs of 18 , compound 32 , binds to the HER2 extracellular domain, inhibiting the phosphorylation of kinase of HER2.     

Xanthine oxidase inhibitors isolated from Piper nudibaccatum

Two new hydroxychavicol analogs nudibaccatumin A (1) and B (2), together with twenty known compounds were isolated from the methanol extract of Piper nudibaccatum. Their structures were elucidated by extensive spectroscopic analyses (1D and 2D NMR, HRESIMS, UV, IR and polarimetry). Hydroxychavicol is a known inhibitor of xanthine oxidase (XO). In the present study, hydroxychavicol and 5 natural analogs (1–5) were evaluated for their XO inhibitory activity. Neotaiwanensol B (3) (IC₅₀ = 0.28 μM) showed a greater inhibitory effect than hydroxychavicol and allopurinol (the positive control). Two new compounds 1 and 2 showed a moderate inhibition activity with an IC₅₀ value of 62.94 μM and 70.67 μM, respectively.     

Synthesis of 1,5-diarylhaloimidazole analogs and their inhibitory activities against PGE2 production from LPS-treated RAW 264.7 cells

A number of 1,5-diarylimidazole analogs were synthesized and evaluated their inhibitory activities of cyclooxygenase-2 catalyzed prostaglandin E₂ production. Reactions of 1,5-diarylimidazoles with halogenating reagents (NCS, NBS, NIS) afforded halogenated analogs. Among the analogs tested, compounds Ib, IIa, IIb and IIe exhibited significantly improved inhibitory activities against COX-2-mediated PGE₂ production from LPS-induced RAW 264.7 cells compared to those of the parent 1,5-diarylimidazoles. Especially, the analogs Ib (IC₅₀ = 0.55 μM) and IIa (IC₅₀ = 0.58 μM) showed best results. Halogenation on the 1,5-diarylimidazole ring enhanced inhibitory activities against COX-2 catalyzed PGE₂ production, however, inhibitory activities were significantly varied by position(s) and species of the substituted halogen(s).     

Amino‐substituted para‐Benzoquinones as Potential Herbicides

Although quinones present a large array of biological activities, a few studies on the herbicidal potential of 2,5‐bis(alkyl/arylamino)‐1,4‐benzoquinones have been reported to date. In this work, starting from benzoquinone, 13 2,5‐bis(alkyl/arylamino)‐1,4‐benzoquinones were prepared in 46 – 93% yield. The products were fully characterized by spectroscopic analyses and their phytotoxicity against Cucumis sativus and Sorghum bicolor seedlings was investigated. At 100 ppm, compounds caused 10 – 88% growth inhibition of the dicotyledonous species, whereas the monocotyledon was less affected. Most compounds exerted little inhibitory effect on a cyanobacterial model strain. However, at 100 μm , compounds 8  –  10 caused about 50% inhibition of algal growth, and compounds 1 and 2 reduced cell viability in the 1 – 10 μm range. The ability of benzoquinone derivatives to interfere with the light‐driven ferricyanide reduction by isolated spinach chloroplasts was evaluated. Some substances showed a moderate effect as uncouplers, but no relationship was found between this property and their biological activity, indicating that the herbicidal effect is not associated with the inhibition of the photosynthetic electron transport chain. Phytotoxic compounds were not toxic to insects, strengthening the possibility that they may serve as lead for the development of eco‐friendly herbicides.     

Melanogenesis‐Inhibitory and Cytotoxic Activities of Limonoids,Alkaloids, and Phenolic Compounds from Phellodendron amurense Bark

Four limonoids, 1  –  4 , five alkaloids, 5  –  9 , and four phenolic compounds, 10  –  13 , were isolated from a MeOH extract of the bark of Phellodendron amurense (Rutaceae). Among these, compound 13 was new, and its structure was established as rel‐(1R,2R,3R)‐5‐hydroxy‐3‐(4‐hydroxy‐3‐methoxyphenyl)‐6‐methoxy‐1‐(methoxycarbonylmethyl)indane‐2‐carboxylic acid methyl ester (γ‐di(methyl ferulate)) based on the spectrometric analysis. Upon evaluation of compounds 1  –  13 against the melanogenesis in the B16 melanoma cells induced with α‐melanocyte‐stimulating hormone (α‐MSH), four compounds, limonin ( 1 ), noroxyhydrastinine ( 6 ), haplopine ( 7 ), and 4‐methoxy‐1‐methylquinolin‐2(1H)‐one ( 8 ), exhibited potent melanogenesis‐inhibitory activities with almost no toxicity to the cells. Western blot analysis revealed that compound 6 inhibited melanogenesis, at least in part, by inhibiting the expression of protein levels of tyrosinase, TRP‐1, and TRP‐2 in α‐MSH‐stimulated B16 melanoma cells. In addition, when compounds 1  –  13 were evaluated for their cytotoxic activities against leukemia (HL60), lung (A549), duodenum (AZ521), and breast (SK‐BR‐3) cancer cell lines, five compounds, berberine ( 5 ), 8 , canthin‐6‐one ( 9 ), α‐di‐(methyl ferulate) ( 12 ), and 13 , exhibited cytotoxicities against one or more cancer cell lines with IC₅₀ values in the range of 2.6 – 90.0 μm . In particular, compound 5 exhibited strong cytotoxicity against AZ521 (IC₅₀ 2.6 μm ) which was superior to that of the reference cisplatin (IC₅₀ 9.5 μm ).     

Nitric Oxide Production‐Inhibitory Activity of Limonoids from Azadirachta indica and Melia azedarach

Seventy‐three limonoids isolated from three Meliaceae plants, Azadirachta indica, A. indica var. siamensis, and Melia azedarach, or semi‐synthesized from the Meliaceae limonoids, were evaluated for their inhibitory activity against nitric oxide (NO) production in mouse macrophage RAW 264.7 cells induced by lipopolysaccharide (LPS), as a primary screening test for anti‐inflammatory agents. Of the compounds tested, 21 compounds exhibited inhibitory activity (IC₅₀ 4.6 – 58.6 μm ) without any significant toxicity (IC₅₀ > 100 μm ) which were more potent than l ‐NMMA (NO‐production inhibitory activity, IC₅₀ 65.6 μm ; cytotoxicity, IC₅₀ > 100 μm ), and among which, nine compounds, i.e., 17‐hydroxy‐15‐methoxynimbocinol ( 6 ), ohchinin ( 20 ), 1‐cis‐cinnamoyl‐1‐decinnamoylohchinin ( 24 ), salannin ( 27 ), methyl nimbidate ( 32 ), isosalannin ( 55 ), nimbolinin D ( 58 ), mesendanin E ( 69 ), and 7‐deacetylgedunin ( 73 ) exhibited potent inhibitory activity (IC₅₀ 4.6 – 29.3 μm ). In particular, compounds 6 (IC₅₀ 7.3 μm ), an azadirone‐type limonoid, and 73 (IC₅₀ 4.6 μm ), a gedunin‐type limonoid, exhibited remarkable activity. Western blot analysis revealed that 27 and 73 reduced the expression levels of the inducible NO synthase and cyclooxygenase‐2 proteins in a concentration‐dependent manner. These findings suggest that limonoids of A. indica, A. indica var. siamensis, and M. azedarach, and their semi‐synthetic derivatives may be effective against inflammation.