Five new degraded diterpenoids from Trigonostemon xyphophylloides

Five new degraded diterpenoids trigoxyphins J–N (1–5), among them trigoxyphins K and L have a novel carbon skeleton, together with four known analogues (6–9) have been obtained from the ethanol extract of the twigs of Trigonostemon xyphophylloides. Compounds 1?5 were evaluated for their cytotoxic activity in vitro against three human tumor cell lines by MTT assay. The results exhibited that Trigoxyphin N (5) showed moderate cytotoxicities against SPC-A-1 and SGC-7901 cancer cell lines.     

Pt(II) complexes with (N,N′) or (C,N,E)− (E = N,S) ligands: Cytotoxic studies,effect on DNA tertiary structure and structure–activity relationships

The cytotoxic activity of two series of platinum(II) complexes containing the polyfunctional imines R¹–CHN–R² [R¹ = phenyl or ferrocenyl unit and R² = (CH₂)_n–CH₂–NMe₂ where n = 1 or 2) (1 and 2) or C₆H₄-2-SMe (3)] acting as a bidentate (N,N′) (4–7) or terdentate [C(phenyl or ferrocenyl),N,N′]^? (8–10) or [C(ferrocenyl),N,S]^? ligand (11) in front of A549 lung, MDA-MB231 breast and HCT116 colon human adenocarcinoma cell lines is reported. The results reveal that most of the platinum(II) complexes are active against the three assayed lines and compounds 6, 7 and the platinacycles 10 and 11 exhibit a remarkable antiproliferative activity, even greater than cisplatin itself, in the cisplatin resistant HCT116 human cancer cell line. Electrophoretic DNA migration studies showed that most of them modify the DNA tertiary structure in a similar way as the reference cisplatin. Solution studies of a selection of the most relevant complexes have also been performed in order to test: (a) their stability in the aqueous biological medium and/or the formation of biologically active species and (b) their proclivity to react with 9-methylguanine (9-MeG), as a model nucleobase. Computational studies at DFT level have also been performed in order to explain the different solution behaviour of the complexes and their proclivity to react with the nucleobase.     

Manzamenones L–N,new dimeric fatty-acid derivatives from an Okinawan marine sponge Plakortis sp.

Three new polyketides, manzamenones L–N (1–3), have been isolated from an Okinawan marine sponge of the genus Plakortis. The structures of 1–3 were elucidated on the basis of spectroscopic data. Manzamenones L–N (1–3) were new dimeric fatty-acid derivatives consisting of a tetrahydroindenone with three carboxy groups and two hexadecanyl chains. Manzamenones M (2) and N (3) showed antimicrobial activity against several bacteria and fungi.     

Ceramicines B–D,new antiplasmodial limonoids from Chisocheton ceramicus

Three new limonoids, ceramicines B–D (1–3), have been isolated from the bark of Chisocheton ceramicus. Structures and stereochemistry of 1–3 were fully elucidated and characterized by 2D NMR analysis. Ceramicines exhibited a moderate antiplasmodial activity.     

Antiosteoporotic flavonoids from Podocarpium podocarpum

A novel bi-isoflavonoid, podocarnone (1), together with five known flavonoids, namely genistein (2), afzelin (3), astragalin (4), luteolin (5) and pratensein (6), were isolated from the whole plants of Podocarpium podocarpum (DC.) Yang and Huang for the first time. The structure of podocarnone (1) was elucidated by detailed spectroscopic analyses, including 1D and 2D NMR techniques. All the isolated compounds were evaluated for their proliferative effects on osteoblasts derived from neonatal rat calvaria and inhibitory effects on multinucleated osteoclasts from rat marrow cells so as to explore the antiosteoporotic activity of these components. Podocarnone (1) exhibited potent stimulatory effects on osteoblastic proliferation and ALP (alkaline phosphatase) activity, and significantly inhibited the activity of osteoclastic TRAP (tartrate-resistant acid phosphatase) in the low concentration range of 10^?12–10^?14 mol/L, which were equivalent to the activity of genistein (2) in the concentration range of 10^?7–10^?9 mol/L. The other five known flavonoids also showed varied degrees of antiosteoporotic activities, and structure–activity relationship analysis revealed the number of phenolic rings contained in these structures maybe responsible for the antiosteoporosis property.     

New diterpene furanoids from the Antarctic lichen Huea sp

In the course of ongoing research on protein tyrosine phosphatase 1B (PTP1B) inhibitory compounds from Antarctic lichens, four new diterpene furanoids, hueafuranoids A–D (1–4) have been isolated from the MeOH extract of Antarctic lichen Huea sp. by various chromatographic methods. The structures of these compounds were elucidated by analysis of NMR and MS data, and comparing their spectral data with those in the literature. Compound 1 showed inhibitory activity against therapeutically targeted protein, PTP1B with an IC₅₀ value of 13.9 μM. The kinetic analysis of PTP1B inhibition by hueafuranoid A (1) suggested that the diterpene furanoids encountered in this study inhibited PTP1B activity in a non-competitive manner.     

Protein tyrosine phosphatase 1B inhibitors isolated from Morus bombycis

Bioassay-guided fractionation of the chloroform-soluble fraction of Morus bombycis, using an in vitro PTP1B inhibitory assay led to the identification of three 2-arylbenzofurans, albafuran A (1), mulberrofuran W (2) and mulberrofuran D (6), along with three chalcone-derived Diels–Alder products, kuwanon J (3), kuwanon R (4), and kuwanon V (5). Compounds 1–6 showed remarkable inhibitory activity against PTP1B with IC₅₀ values ranging from 2.7 to 13.8 μM. Inhibition kinetics were analyzed by Lineweaver–Burk plots, which suggested that compounds 1–6 inhibited PTP1B in a mixed-type manner. The present results indicate that the respective lipophilic and hydroxyl groups of 2-arylbenzofurans and chalcone-derived Diels–Alder products play an important role in inhibition of PTP1B.     

Generation of methylated violapyrones with improved anti-influenza A virus activity by heterologous expression of a type III PKS gene in a marine Streptomyces strain

Heterologous expression of the type III polyketide synthase (PKS) gene vioA in marine-derived Streptomyces youssoufiensis OUC6819 led to production of six violapyrones (VLPs), including four novel compounds VLPs Q–T (1–4) and two known compounds VLPs B and I (5 and 6). The structures of 1–4 were elucidated by a combination of spectroscopic analyses, including HR-ESIMS and 1D and 2D NMR data, demonstrating that 1–4 are novel VLPs which are methylated at 4-OH with their corresponding non-methylated counterparts to be VLP A, 5 and 6 and VLP C, respectively. Anti-influenza A [H1N1 (A/Virginia/ATCC1/2009) and H3N2 (A/Aichi/2/1968)] virus activity of compounds 1–6 as well as VLPs A and C were then evaluated using ribavirin as a positive control (IC₅₀?=?66.7 and 99.6?μM). The results revealed that these VLPs showed considerable anti-H1N1 and anti-H3N2 activities with IC₅₀ values of 30.6–132.4?μM and 45.3–150.0?μM, respectively. Notably, all the methylated VLPs displayed better anti-virus activity than their non-methylated counterparts, among which compound 3 (VLP S) exhibited the best activities. Interestingly, methylation at 4-OH has negative effect on the anti-MRSA (methicillin-resistant Staphylococcus aureus) activity instead, with methylated VLPs displaying decreased (2) or abolished (3 and 4) activities in comparison with each of their non-methylated counterparts.     

Tyrosinase inhibitory study of flavonolignans from the seeds of Silybum marianum (Milk thistle)

Anti-melanogenesis effects of silymarin from milk thistle have been reported recently, but detailed tyrosinase inhibition properties of individual components have not been investigated. This study purported to substantiate tyrosinase inhibition and its mechanism based on a single metabolite. The responsible components for tyrosinase inhibition of target source were found out as flavonolignans which consist of isosilybin A (1), isosilybin B (2), silydianin (3), 2,3-dihydrosilychristin (4), silychristin A (5), silychristin B (6) and silybin (7), respectively. The isolated flavonolignans (1–7) inhibited both monophenolase (IC₅₀ = 1.7–7.6 µM) and diphenolase (IC₅₀ = 12.1–44.9 µM) of tyrosinase significantly. Their inhibitions were 10-fold effective in comparison with their mother skeletons (8–10). Inhibitory functions were also proved by HPLC analysis using N-acetyl-l-tyrosine as substrate. The predominant formation of E_met·I was confirmed from a long prolongation of lag time and a decrease of the static state activity of the enzyme. All tested compounds had a significant binding affinity to tyrosinase with K_SV values of 0.06–0.27 × 10⁴ L·mol⁻¹, which are well correlated with IC₅₀s. In kinetic study, all flavonolignan (1–7) were mixed type I (K_I < K_IS) inhibitors, whereas their mother skeletons (8–10) were competitive ones. The UPLC-ESI-TOF/MS analysis showed that the isolated inhibitors are the most abundant metabolites in the target plant.     

Antidiabetic potential of phytochemicals isolated from the stem bark of Myristica fatua Houtt. var. magnifica (Bedd.) Sinclair

Phytochemical investigation of the stem bark of Myristica fatua Houtt. led to the isolation of a new compound 1 (3-tridecanoylbenzoic acid), along with six known acylphenols (2–7). All the compounds displayed moderate inhibitory activity on α-amylase and significant activity on α-glucosidase; however malabaricone B (6) and C (7) were identified as potent α-glucosidase inhibitors with IC₅₀ values of 63.70?±?0.546, and 43.61?±?0.620?µM respectively. Acylphenols (compounds 3–7) also showed significant antiglycation property. The molecular docking and dynamics simulation studies confirmed the efficient binding of malabaricone C with C-terminus of human maltase-glucoamylase (2QMJ). Malabaricone B also enhanced the 2-NBDG [2-(N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino)-2-deoxy glucose] uptake in L6 myotubes. These findings demonstrate that acylphenols isolated from Myristica fatua Houtt. can be considered as a lead scaffold for the treatment of type II diabetes mellitus.     

Isolation,leishmanicidal evaluation and molecular docking simulations of piperidine alkaloids from Senna spectabilis

Leishmaniasis is one of the most important neglected tropical diseases (NTDs) that are especially common among low-income populations in developing regions of Africa, Asia, and the Americas. Many natural products, particularly alkaloids, have been reported to have inhibitory activity against arginase, the key enzyme in the pathology caused by Leishmania sp. In this way, piperidine alkaloids (–)-cassine (1), (–)-spectaline (2), (–)-3-O-acetylcassine (3), and (–)-3-O-acetylspectaline (4) were isolated from Senna spectabilis flowers. These compounds (1/2 and 3/4) initially present as homologous mixtures were separated by high performance liquid chromatography and evaluated against the promastigote phase of Leishmania amazonensis. In addition, molecular docking simulations were implemented in order to probe the binding modes of the ligands 1–4 to the amino acids in the active site of L. amazonensis arginase. Alkaloid 2 (IC₅₀ 15.81?μg?mL^?1) was the most effective against L. amazonensis. Compounds 2 and 4, with larger side chain, were more effective against the parasite than compounds 1 and 3. The cell viability test on Vero cells revealed that compound 2 (CC₅₀ 66.67?μg?mL^?1) was the most toxic. The acetyl group in the 3-O position of the parent structures reduced the leishmanicidal activity and the toxicity of the alkaloids. Further, molecular docking suggested that Asn143 is essential for arginase to interact with (–)-spectaline-derived compounds, which agreed with the IC₅₀ measurements. Our findings revealed that S. spectabilis is an important source of piperidine alkaloids with leishmanicidal activity. Moreover, the natural compound 3 has been isolated for the first time. Experimental investigation combined with theoretical study advances knowledge about the enzyme binding site mode of interaction and contributes to the design of new bioactive drugs against Leishmania infection.     

Inhibition of protein tyrosine phosphatase 1B (PTP1B) and α-glucosidase by xanthones from Cratoxylum cochinchinense, and their kinetic characterization

Cratoxylum cochinchinense displayed significant inhibition against protein tyrosine phosphatase 1B (PTP1B) and α-glucosidase, both of which are key target enzymes to attenuate diabetes and obesity. The compounds responsible for both enzymes inhibition were identified as twelve xanthones (1–12) among which compounds 1 and 2 were found to be new ones. All of them simultaneously inhibited PTP1B with IC₅₀s of (2.4–52.5?µM), and α-glucosidase with IC₅₀ values of (1.7–72.7?µM), respectively. Cratoxanthone A (3) and γ-mangostin (7) were estimated to be most active inhibitors against both PTP1B (IC₅₀?=?2.4?µM for 3, 2.8?µM for 7) and α-glucosidase (IC₅₀?=?4.8?µM for 3, 1.7?µM for 7). In kinetic studies, all isolated xanthones emerged to be mixed inhibitors of α-glucosidase, whereas they behaved as competitive inhibitors of PTP1B. In time dependent experiments, compound 3 showed isomerization inhibitory behavior with following kinetic parameters: K_i^app?=?2.4?µM; k₅?=?0.05001?µM^?1?S^?1 and k₆?=?0.02076?µM^?1?S^?1.     

Cyclic diarylheptanoids as Na+-glucose cotransporter (SGLT) inhibitors from Acer nikoense

Two cyclic diarylheptanoids, acerogenins A (1) and B (2) have been isolated from the bark of Acer nikoense as inhibitors of Na⁺-glucose cotransporter (SGLT). Acerogenins A (1) and B (2) inhibited both isoforms, SGLT1 and SGLT2. Structure–activity relationship of acerogenin derivatives on inhibitory activity of SGLT as well as conformational analysis of 1 and 2 on the basis of J-resolved HMBC spectra and X-ray analysis were discussed.     

N-Formyllapatin A,a new N-formylspiroquinazoline derivative from the marine-derived fungus Penicillium adametzioides AS-53

N-Formyllapatin A (1), a new spiroquinazoline derivative, and four known quinazoline metabolites, lapatins A (2) and B (3), prelapatin B (4), and glyantrypine (5), along with two known indolediketopiperazine derivatives, fumitremorgin B (6) and verruculogen (7), were characterized from Penicillium adametzioides AS-53, a fungus obtained from the fresh tissue of an unidentified marine sponge. The structure of compound 1 was established by detailed interpretation of NMR and MS data, and its absolute configuration was established by a single-crystal X-ray diffraction analysis. N-Formyllapatin A (1) represents the first N-formylspiroquinazoline secondary metabolite. Compounds 3 and 5–7 showed moderate inhibitory activity against aqua-pathogenic bacterial Vibrio harveyi.     

Bioactive polyhydroxylated steroids from the Hainan soft coral Sinularia depressa Tixier-Durivault

Two new steroids, (2β,3β,4α,5α,8β)-4-methylergost-24(28)-ene-2,3,8-triol (1) and (3β,7α)-24-methyl-7-hydroperoxycholest-5,24(28)-diene-3-ol (2), together with 13 known analogues (3–15) were isolated from the soft coral Sinularia depressa Tixier-Durivault. The structures of the new compounds were elucidated by detailed spectroscopic analysis and comparison with reported data. In the bioassay in vitro, compounds 3a, 4, and 14 exhibited potent PTP1B inhibitory activity, being similar as that of positive control oleanolic acid. Compound 14 also displayed a notable neuroprotective activity against both amyloid-β_25–35- and serum deprivation-induced injuries in SH-SY5Y cells while compound 11 showed a considerable antibacterial activity against Staphylococcus aureus. Preliminary structure–activity relationships of these steroids were discussed.     

A novel sesquiterpene quinone from Hainan sponge Dysidea villosa

A new sesquiterpene quinone, 21-dehydroxybolinaquinone (5), together with two known related analogues, bolinaquinone (6) and dysidine (7), had been isolated from the Hainan sponge Dysidea villosa. The structure of the new compound 5 was elucidated on the basis of detailed analysis of spectroscopic data and by comparison with related model compounds. Compounds 5–7 were evaluated for the inhibitory activity against hPTP1B, a potential drug target for treatment of type-II diabetes and obesity, and cytotoxic activity against Hela cell line. The results showed that dysidine (7) had the strongest hPTP1B inhibitory activity with an IC₅₀ value of 6.70 μM and 6 had significant cytotoxic activity against Hela cell line with an IC₅₀ value of 5.45 μM. New compound 5 showed moderate PTP1B inhibitory activity and cytotoxicity with IC₅₀ values of 39.50 and 19.45 μM, respectively.     

DFT/B3LYP calculations,in vitro cytotoxicity and antioxidant activities of steroidal pyrimidines and their interaction with HSA using molecular docking and multispectroscopic techniques

As a part of our continuing program on the synthesis of steroidal heterocycles, it has been prepared a series of novel steroidal pyrimidine derivatives 4–6 via TMSCl, steroidal ketones (1c–3c), urea and benzaldehyde. The systems presented here, are novel scaffolds and have not been described before at 6th position of steroidal-6-one (1c–3c). Structural assignment of newly synthesized compounds was performed by DFT/B3LYP calculations as well as spectral and analytical data. The interactions of compounds (4–6) with HSA were studied by fluorescence spectroscopy, DLS, CD and molecular docking, under imitated physiological conditions. The antitumor activity has been tested in vitro against three cancer cell lines MDA-MB231 (breast carcinoma), HeLa (human cervical carcinoma), HepG2 (hepatic carcinoma) and one non-cancer normal cell lines, PBMCs (peripheral blood mononuclear cell) by MTT assay. In addition, in vitro antioxidant activity and apoptosis assay of the synthesized compounds (4–6) have also been investigated.     

Putative superoxide dismutase activity of iron-EDTA: a reexamination

It has been reported that iron-EDTA complexes mimic the action of superoxide dismutase, displaying 0.01% of the activity of the enzyme (Halliwell, B., 1975, FEBS Lett., 56, 34–38). This was purportedly directly confirmed by J. G. McClune, J. A. Fee, G. A. McCluskey, and J. T. Groves, 1977, J. Amer. Chem. Soc., 99, 5220–5222. A reexamination of the behavior of this compound has demonstrated that it does not catalyze the dismutation of O₂^?, but rather inferferes with assays for superoxide dismutation activity, which are based on the reductions of nitroblue tetrazolium or of cytochrome c. The sources of this interference have been examined. Investigators engaged in searching for mimics of superoxide dismutase are urged to be wary of similar artifacts.     

Two new components from the rhizome of Anemarrhena asphodeloides Bge. and their antiplatelet aggregative activity

Two new components, anemarrhena A (1) and anemarrhena B (2), together with five known ones (3–7), were isolated from the rhizome of Anemarrhena asphodeloides Bge. Their structures were established by detailed spectral studies, including 1D-NMR (¹H NMR, ¹³C NMR and DEPT), 2D-NMR (HSQC, HMBC and NOESY), HR-ESI-MS and by the comparison with literature data. The absolute configuration of 2 was further determined by CD analysis. The isolated compounds were evaluated for their antiplatelet aggregative activity. Compounds 1, 2, 3, 5, 6 and 7 exhibited moderate activity of antiplatelet aggregation in vitro, compound 4 showed potential antiplatelet aggregation activity.     

Caged xanthones displaying protein tyrosine phosphatase 1B (PTP1B) inhibition from Cratoxylum cochinchinense

Four new caged xanthones (1–4) and two known compounds (5, 6) were isolated from the roots of Cratoxylum cochinchinense, a polyphenol rich plant, collected in China. The structures of the isolated compounds (1–6) were characterized by obtaining their detailed spectroscopic data. In particular, compounds 1 and 6 were fully identified by X-ray crystallographic data. The isolated compounds (1–6) were evaluated against protein tyrosine phosphatase 1B (PTP1B), which plays an important role in diabetes, obesity, and cancer. Among these compounds, 3, 4, and 6 displayed significant inhibition with IC₅₀ values of 76.3, 43.2, and 6.6 µM, respectively. A detailed kinetic study was conducted by determining K_m, V_max, and the ratio of K_ik and K_iv, which revealed that all the compounds behaved as competitive inhibitors.