Golden berry leaf extract containing withanolides suppresses TNF-α and IL-17 induced IL-6 expression in HeLa Cells.

Inflammation, characterized by the overexpression of IL-6 in various tissues, has been reported as a symptom of coronavirus disease 2019. In this study, we established an experimental system for overexpression of IL-6 in HeLa cells stimulated by TNF-α and IL-17, along with identification of anti-inflammatory materials and components from local agricultural, forestry, and fishery resources. We constructed a library of extracts from natural sources, of which 111 samples were evaluated for their anti-inflammatory activities. The MeOH extract of Golden Berry (Physalis peruviana L) leaf was found to exhibit strong anti-inflammatory properties (IC50 = 4.97 µg/mL). Preparative chromatography identified two active constituents, 4ß-hydroxywithanolide E (4ß-HWE) (IC50 = 183 nM) and withanolide E (WE) (IC50 = 65.1 nM). Withanolides are known anti-inflammatory ingredients of Withania somnifera, an Ayurvedic herbal medicine. P. peruviana leaves containing 4ß-HWE and WE should be considered as useful natural resources for anti-inflammatory products.

Petasin is the main component responsible for the anti-adipogenic effect of Petasites japonicus.

Petasites japonicus is one of the most popular edible wild plants in Japan. Many biological effects of P. japonicus have been reported, including anti-allergy, anti-inflammation, and anticancer effects. Although its anti-obesity effect has been reported in several studies, the most important component responsible for this activity has not been fully elucidated. On screening the components that suppress adipocyte differentiation in 3T3-F442A cells, we found that the extract of the flower buds of P. japonicus has anti-adipogenic effect. Among the known major components of P. japonicus, petasin exhibited a potent anti-adipogenic effect at an IC50 value of 0.95 µM. Quantitative analysis revealed that the active component responsible for most of the anti-adipogenic effects of P. japonicus extract is petasin. Petasin suppressed the expression of markers of mature adipocytes (PPARγ, C/EBPα, and aP2). However, as isopetasin and petasol, analogs of petasin, did not exhibit these effects, it indicates that a double bond at the C11-C12 position and an angeloyl ester moiety were essential for the activity. Petasin affected the late stage of adipocyte differentiation and inhibited the expression of lipid synthesis factors (ACC1, FAS, and SCD1). Additionally, it was revealed that petasin could be efficiently extracted using hexane with minimal amount of pyrrolizidine alkaloids, the toxic components. These findings indicate that P. japonicus extract containing petasin could be a promising food material for the prevention of obesity.

Cochlioquinone derivatives produced by coculture of endophytes, Clonostachys rosea and Nectria pseudotrichia.

Three new meroterpenoid derivatives, furanocochlioquinol (1) and furanocochlioquinone (2), as well as nectrianolin D (3), together with two known biogenetically related compounds 4 and 5 were isolated from a mixed culture of two mangrove-derived fungi, Clonostachys rosea B5-2 and Nectria pseudotrichia B69-1. The structures of 1-3 were deduced based on the interpretation of HRMS and NMR data. Compounds 1-5 exhibited cytotoxicity against human promyelocytic leukemia (HL60) cells with IC50 values ranging from 0.47 to 10.16 µM.

Inhibition of Calcineurin and Glycogen Synthase Kinase-3ß by Ricinoleic Acid Derived from Castor Oil.

Ricinoleic acid (RA) is the main fatty acid component of castor oil and was found to inhibit Ca2+ -signal transduction pathway-mediated cell cycle regulation in a yeast-based drug screening assay. RA is expected to have antidiabetic, antiallergy, and/or anticancer properties but its target molecule is unknown. To identify a novel pharmacological effect of RA, we investigated its target molecule in the Ca2+ -signal transduction pathway. RA inhibition of calcineurin (CN) was examined in a yeast-based CN inhibitor screening assay using the rsp5A401E mutant and in a phosphatase assay using recombinant human CN. RA showed growth-restoration activity at 5 µg/spot in the CN inhibitor screening assay with the rsp5A401E yeast strain. Furthermore, it directly inhibited CN without immunophilins at Ki = 33.7 µM in a substrate-competitive manner. The effects of RA on CN in mammalian cells were further evaluated by measuring ß-hexosaminidase (ß-HEX) release in RBL-2H3 cells. RA at 50 µM suppressed the release of ß-HEX from RBL-2H3 cells. Moreover, this compound was found to inhibit glycogen synthase kinase-3ß (GSK-3ß), as determined by a kinase assay using recombinant human GSK-3ß. RA inhibited GSK-3ß at Ki = 1.43 µM in a peptide substrate-competitive manner. The inhibition of GSK-3ß by this molecule was further assessed in mammalian cells by measuring the inhibition of glucose production in H4IIE rat hepatoma cells. RA at 25 µM suppressed glucose production in these cells. These findings indicate that RA and/or castor oil could be a useful functional fatty acid to treat allergy or type 2 diabetes.

Isolation of a spirolactone norditerpenoid as a yeast Ca2+ signal transduction inhibitor from Kuji amber and evaluation of its effects on PPM1A activity.

A different type of biologically active compound from Kuji amber (Late Cretaceous, Japan) before the K-Pg boundary [65 million years ago (Ma)] was isolated based on the growth-restoring activity of a mutant yeast involving Ca2+ signal transduction. It was identified as a spirolactone norditerpenoid, (4R*, 5S*, 8R*, 9R*, 10S*)-14,15,16,19-tetranor-labdan-13,9-olide (1) from spectral analyses with high-resolution electron ionization mass spectrometry (HREIMS), 1D and 2D nuclear magnetic resonance (NMR). Although the planar structure of 1 is known as an artificial derivative from marrubiin, it was isolated as a natural product from Kuji amber and its structure was elucidated for the first time. It had a growth-restoring activity against the mutant yeast through the direct or indirect inhibition of calcineurin activity [protein phosphatase, Mg2+/Mn2+-dependent 1A (PPM1A) activation]. Furthermore, the compound had potent inhibitory effect against the degranulation of rat basophilic leukemia 2H3 (RBL-2H3) cells.

Isolation of yeast Ca2+ signal transduction inhibitors from the Early Cretaceous Burmese amber.

Two kinds of biologically active compounds were isolated from the MeOH extract of the Early Cretaceous Burmese amber [99 million years ago (Ma)], which is older than the K-Pg boundary (65 Ma). These compounds had inhibitory activity against the hypersensitive mutant yeast strain (zds1∆ erg3∆ pdr1∆ pdr3∆) with respect to Ca2+ signal transduction. They were identified as 16,17-bisnordehydroabietic acid (1) and 16,17-bisnorcallitrisic acid (2), respectively, on the basis of spectral analyses including HREIMS, 1D, and 2D NMR. Both have faint growth restoring activities around the clear inhibition zone against the mutant yeast on the 0.31-0.16 µg/spot. This is the first report of direct structural elucidation of 1 and 2 and the biologically active compounds derived from Burmese amber.

New polyketides, paralactonic acids A-E produced by Paraconiothyrium sp. SW-B-1, an endophytic fungus associated with a seaweed, Chondrus ocellatus Holmes.

Five polyketides, paralactonic acids A-E (1-5) were isolated from Paraconiothyrium sp. SW-B-1, an endophytic fungus isolated from the seaweed, Chondrus ocellatus Holmes. Their structures were determined by various spectroscopic methods, predominantly by 2D NMR spectroscopic analyses. The absolute configurations of compounds 1-5 were determined by comparison of the experimental and calculated ECD spectra. Compound 5 showed moderate antibacterial activity and restored the growth of a mutant yeast strain inhibited by hyperactivated Ca2+-signaling.

Fission yeast cells overproducing HSET/KIFC1 provides a useful tool for identification and evaluation of human kinesin-14 inhibitors.

Many human cancer cells contain more than two centrosomes, yet these cancer cells can form pseudo-bipolar spindles through the mechanism, called centrosome clustering, and survive, instead of committing lethal multipolar mitoses. Kinesin-14/HSET, a minus end-directed motor, plays a crucial role in centrosome clustering. Accordingly, HSET is deemed to be a promising chemotherapeutic target to selectively kill cancer cells. Recently, three HSET inhibitors (AZ82, CW069 and SR31527) have been reported, but their specificity and efficacy have not been evaluated rigorously. This downside partly stems from the lack of robust systems for the assessment of these drugs. Yeasts and filamentous fungi provide not only powerful models for basic and applied biology but also versatile tools for drug discovery and evaluation. Here we show that these three inhibitors on their own are cytotoxic to fission yeast, suggesting that they have off-targets in vivo except for kinesin-14. Nonetheless, intriguingly, AZ82 can neutralize otherwise toxic overproduced HSET; this includes a substantial reduction in the percentage of HSET-driven abnormal mitotic cells and partial suppression of its lethality. SR31527 also displays modest neutralizing activity, while we do not detect such activity in CW069. As an experimental proof-of-principle study, we have treated HSET-overproducing fission yeast cells with extracts prepared from various plant species and found activities that rescue HSET-driven lethality in those from Chamaecyparis pisifera and Toxicodendron trichocarpum. This methodology of protein overproduction in fission yeast, therefore, provides a convenient, functional assay system by which to screen for not only selective human kinesin-14 inhibitors but also those against other molecules of interest.

New isocoumarins, naphthoquinones, and a cleistanthane-type diterpene from Nectria pseudotrichia 120-1NP.

Four new compounds, namely, nectriapyrones A (2) and B (3), nectriaquinone B (5), and zythiostromic acid C (8), were isolated from the brown rice culture of Nectria pseudotrichia 120-1NP together with four known compounds (1, 4, 6, and 7). To the best of our knowledge, this is the first report of 4 from a natural source. Their structures were determined on the basis of 1D/2D-NMR spectroscopy and HRESITOFMS data. In addition, the absolute configuration of secondary alcohols in 8 were determined using modified Mosher's ester method. All isolated compounds were evaluated for their antimicrobials activity, phytotoxicity, and cytotoxicity.

Anti-allergy activities of Kuji amber extract and kujigamberol.

Amber is fossilized tree resin and several biologically active compounds were isolated from ambers using the growth-restoring activity of the mutant yeast [Saccharomyces cerevisiae (zds1∆ erg3∆ pdr1∆ pdr3∆)] involving Ca2+-signal transduction. The aim of this study is to investigate the anti-allergic effect of both the methanol extract of Kuji amber (MEKA) and its main biologically active constituent, kujigamberol (15,20-dinor-5,7,9-labdatrien-18-ol) having activity against the mutant yeast. Both MEKA and kujigamberol inhibited the degranulation of RBL-2H3 cells by stimulation of thapsigargin (Tg) (IC50 = 15.0 µg/ml and 29.1 µM) and A23187 (IC50 = 19.6 µg/ml and 24.9 µM) without cytotoxicity, but not by stimulation of IgE + DNP-BSA (Ag) (IC50 > 50.0 µg/ml and 50.0 µM). However, both inhibited Ca2+-influx in RBL-2H3 cells by all three stimulations in a dose dependent manner. Leukotriene C4 production in RBL-2H3 cells stimulated by A23187 was also inhibited by both through the inhibition of ERK1/2 phosphorylation. In an ovalbumin-induced rhinitis model of guinea pigs, nasal administration of MEKA and kujigamberol inhibited nasal blockade in a dose-dependent manner and the effect was about 5 times potent than that of a steroid clinical drug, mometasone furoate. The growth-restoring activity of MEKA and kujigamberol against the mutant yeast is involved in the anti-allergic activities against cells and animals, and both are expected to be candidates for the development of new anti-allergy agents.

Ca2+-Signal Transduction Inhibitors, Kujiol A and Kujigamberol B, Isolated from Kuji Amber Using a Mutant Yeast.

A podocarpatriene and a labdatriene derivative, named kujiol A [13-methyl-8,11,13-podocarpatrien-19-ol (1)] and kujigamberol B [15,20-dinor-5,7,9-labdatrien-13-ol (2)], respectively, were isolated from Kuji amber through detection with the aid of their growth-restoring activity against a mutant yeast strain ( zds1Δ erg3Δ pdr1Δ pdr3Δ), which is known to be hypersensitive with respect to Ca2+-signal transduction. The structures were elucidated by spectroscopic data analysis. Compounds 1 and 2 are rare organic compounds from Late Cretaceous amber, and the mutant yeast used seems useful for elucidating a variety of new compounds from Kuji amber specimens, produced before the K-Pg boundary.

(4Z,15Z)-Octadecadienoic Acid Inhibits Glycogen Synthase Kinase-3ß and Glucose Production in H4IIE Cells.

Many uncommon non-methylene-interrupted fatty acids (NMI FA) are present in limpet gonads, but their biological properties remain unknown. To investigate new biological effects of naturally occurring NMI FA in eukaryotic cells, the biological activities of structurally analogous (4Z,15Z)-octadecadienoic acid (1), (9Z,20Z)-tricosadienoic acid (2), and (12Z,23Z)-hexacosadienoic acid (3) were examined by using a yeast-based drug-screening system using the Ca2+-sensitive mutant strain, Saccharomyces cerevisiae (zds1Δ erg3Δ pdr1Δ pdr3Δ). Among 1-3, 1 showed restored growth activity at a dose of 80 µg/disc in the mutant yeast strain. This phenotype suggests that 1 suppresses Ca2+-signaling of the mutant yeast through inhibition of glycogen synthase kinase-3ß (GSK-3ß) or calcineurin pathways or both. From this result, the inhibitory activity of 1-3 against GSK-3ß was further determined. 1-3 showed potent inhibitory activity against GSK-3ß with IC50 values ranging from 8.7 to 21.9 µM. Inhibition of GSK-3ß reduces gene expression of the gluconeogenic key enzymes in liver, so we analyzed glucose production in rat hepatoma H4IIE cells to assess GSK-3ß inhibitory activity of 1-3. Acid 1 inhibited glucose production at 25 µM in H4IIE cells. Our results would open up new possibilities for an anti-diabetic effect of 1 and might provide important insights into understanding the biological properties of naturally occurring NMI FA.

Two new 5-deoxyflavan-3,4-diol glucosides from roots of Albizia chevalieri.

Phytochemical investigation of the roots of Albizia chevalieri led to the isolation of two new 5-deoxyflavan-3,4-diol glucosides from roots of A. chevalieri, Chevalieriflavanosides A and B. Their structures were established by 2D NMR techniques, UV, IR, CD, and mass spectrometry. Cytotoxicity of the two compounds was evaluated against acute promyelocytic leukemia HL60 cells. The antibacterial activities of 1 and 2 also were evaluated against Pseudomonas aeruginosa and Staphylococcus aureus using the agar diffusion test. Copyright © 2016 John Wiley & Sons, Ltd.

Yeast Ca(2+)-signal transduction inhibitors isolated from Dominican amber prevent the degranulation of RBL-2H3 cells through the inhibition of Ca(2+)-influx.

A new norlabdane compound, named kujigamberol has previously been isolated from Kuji amber (but not from Baltic amber) by activity guided fractionation. However, there has been no study of biological compounds in Dominican amber. Biological activities were examined using the hypersensitive mutant yeast (zds1Δ erg3Δ pdr1Δ pdr3Δ) with respect to Ca(2+)-signal transduction, enzymes and rat basophilic leukemia (RBL)-2H3 cells. The structures were elucidated on the basis of spectral analysis including high resolution (HR)-EI-MS, 1D NMR and 2D NMR. Three diterpenoid compounds, 5(10)-halimen-15-oic acid (1), 3-cleroden-15-oic acid (2) and 8-labden-15-oic acid (3), which are different from the bioactive compounds in Kuji and Baltic ambers, were isolated from Dominican amber. They inhibited both calcineurin (CN) (IC50=40.0, 21.2 and 34.2µM) and glycogen synthase kinase-3ß (GSK-3ß) (IC50=48.9, 43.8 and 41.1µM) which are involved in the growth restored activity against the mutant yeast. The most abundant compound 2 showed inhibitory activity against both degranulation and Ca(2+)-influx in RBL-2H3 cells. The compounds having the growth restoring activity against the mutant yeast have potential as anti-allergic compounds.

Gentiolactone, a secoiridoid dilactone from Gentiana triflora, inhibits TNF-α, iNOS and Cox-2 mRNA expression and blocks NF-κB promoter activity in murine macrophages.

BACKGROUND: Gentian roots have been used as a herbal medicine because of their anti-inflammatory activities. However, the molecular mechanisms of these anti-inflammatory effects remain to be completely explained. METHODS AND FINDINGS: Here, we investigated anti-inflammatory effects of gentian roots and showed that root extracts from Gentiana triflora inhibited lipopolysaccharide (LPS)-induced expression of TNF-α in RAW264.7 cells. The extracts also contained swertiamarin and gentiopicroside, which are the major active compounds of gentian roots; however, neither compound had any effect on LPS-induced TNF-α production in our test system. We isolated gentiolactone as an inhibitor of TNF-α production from the extracts. Gentiolactone also inhibited LPS-induced inducible nitric oxide synthase (iNOS) and cyclooxygenase-2 (Cox-2) expression at the mRNA level. Moreover, gentiolactone suppressed NF-κB transcriptional activity without inhibition of IκB degradation or NF-κB nuclear transport. CONCLUSIONS: Our results indicate that inhibition of TNF-α, iNOS and Cox-2 expression by gentiolactone is one of the mechanisms of the anti-inflammatory properties of gentian roots.

Calcineurin inhibitors suppress the high-temperature stress sensitivity of the yeast ubiquitin ligase Rsp5 mutant: a new method of screening for calcineurin inhibitors.

The ubiquitin/proteasome system plays significant and important roles in the regulation of metabolism of various proteins. The dysfunction of this system is involved in several diseases, for example, cancer, neurogenic diseases and chronic inflammation. Therefore, the compounds, which regulate the ubiquitin/proteasome system, might be candidates for the development use as clinical drugs. The Saccharomyces cerevisiae mutant (rsp5(A401E)) has a single amino acid change, Ala401Glu, in the RSP5 gene, which encodes an essential E3 ubiquitin ligase, is hypersensitive to high-temperature stress. Here, we found that the immunosuppressants FK506 and cyclosporin A, both known as calcineurin inhibitors, complemented the high-temperature stress-induced growth defect of rsp5(A401E) strain. The defect of calcineurin pathway by disrupting the CNB1 and CRZ1 gene also partially complemented the high-temperature stress sensitivity of rsp5(A401E) cells. Thus, these results suggest that inhibition of the calcineurin pathway confers the tolerance to high-temperature stress on rsp5(A401E) cells. Furthermore, some diterpenoid compounds, which restore the growth of rsp5(A401E) cells, showed the activities of calcineurin inhibition and protein phosphatase 2C activation. These results indicate that calcineurin inhibitors suppress the high-temperature stress sensitivity of rsp5(A401E) cells and that analysis of their physiological function is effective for the screening of calcineurin inhibitors in yeast cells.

Inhibition of glycogen synthase kinase-3ß by falcarindiol isolated from Japanese Parsley (Oenanthe javanica).

A new biological activity of falcarindiol isolated from Japanese parsley (Oenanthe javanica) using the mutant yeast YNS17 strain (zds1Δ erg3Δ pdr1Δ pdr3Δ) was discovered as an inhibitor of glycogen synthase kinase-3ß (GSK-3ß). Falcarindiol inhibited GSK-3ß in an ATP noncompetitive manner with a Ki value of 86.9 µM using a human enzyme and luminescent kinase assay platform. Falcarindiol also both suppressed gene expression of glucose-6-phosphatase (G6Pase) in rat hepatoma H4IIE cells and protected mouse neuroblastoma HT22 cells from glutamate-induced oxidative cell death at 10 µM. During an oral glucose tolerance test (OGTT), the blood glucose level was significantly decreased in the rats treated with oral administration of O. javanica extract containing falcarindiol (15 mg/kg). These findings indicate that Japanese parsley could be a useful food ingredient against type-2 diabetes and Alzheimer's disease.

Pisiferdiol restores the growth of a mutant yeast suffering from hyperactivated Ca2+ signalling through calcineurin inhibition.

In the course of our screening program for a new inhibitor of the Ca(2+) signalling pathway using mutant yeast [Saccharomyces cerevisiae (zds1Δ erg3Δ pdr1Δ pdr3Δ)], a mouse PP2Cα activator, pisiferdiol, isolated from Chamaecyparis pisifera, was found to alleviate the Ca(2+) signal-mediated growth inhibition. Pisiferdiol showed growth inhibition activity against the mpk1Δ strain compared with the cnb1Δ strain and induced Li(+) sensitivity to the wild-type strain, indicating that it suppresses the calcineurin pathway in the yeast. However, the Li(+) sensitivity to ptc1Δ strain by pisiferdiol was diminished. Pisiferdiol showed growth restored activity in the zds1Δ strain without immunophilins Fkb1p or Cph1p, and in the pmc1Δ strain. It inhibited calcineurin-induced expression in the reporter gene assay and decreased the protein expression (Western blots) of calcineurin (Cnb1p) in addition to a decrease of Swe1p and phosphorylation of Cdc28p in the mutant yeast. These results showed that pisiferdiol could suppress indirectly the action of calcineurin and restored the growth inhibition of the mutant yeast through Ptc1p activation.

Kujigamberol, a new dinorlabdane diterpenoid isolated from 85million years old Kuji amber using a biotechnological assay.

A new compound, 15,20-dinor-5,7,9-labdatriene-18-ol (1), named kujigamberol, was isolated from amber, fossilized tree resin from the Kuji area in Japan, has been dated as being 85 million years old (late Cretaceous). Kujigamberol was identified using the hypersensitive mutant yeast (zds1∆ erg3∆ pdr1∆ pdr3∆) with respect to Ca(2+)-signal transduction. The structure was elucidated on the basis of spectroscopic analysis including 1D NMR, 2D NMR and HR-EI-MS. It was different from known diterpenoids with a similar activity isolated from Baltic amber (agathic acid 15-monomethyl ester (2), dehydroabietic acid (3) and pimaric acid (4)). Kujigamberol showed glycogen synthase kinase-3ß (GSK-3ß) inhibition activity involving the growth restored activity against the mutant yeast and was cytotoxic to HL60 cells (IC(50)=19.6 µM).