Antiviral Triketone‐Phloroglucinol‐Monoterpene Adducts from Callistemon rigidus

Callistrilones F – K ( 1 – 6 ), six new triketone‐phloroglucinol‐monoterpene hybrids were isolated from the twigs and leaves of Callistemon rigidus. Their structures with absolute configurations were established by a combination analysis of NMR spectra, X‐ray diffraction, and electronic circular dichroism (ECD) calculations. Compounds 3 and 4 exhibited moderate inhibitory activities against herpes simplex virus (HSV‐1) with IC₅₀ values of 10.00 ± 2.50 and 12.50 ± 1.30 μm , respectively.     

Myrtucommulone‐A Induces both Extrinsic and Intrinsic Apoptotic Pathways in Cancer Cells

Myrtucommulone‐A is the active compound derived from Myrtus communis. The molecular targets of myrtucommulone‐A is widely unknown, which impedes its potential therapeutic use. In this study, we demonstrated the cytotoxicity of MC‐A and its potential to induce apoptosis in cancer cells. Myrtucommulone‐A was also found to be antiproliferative and strongly inhibited cancer cell migration. Eighty four apoptotic pathway genes were used to assess the effect of myrtucommulone‐A on cancer cells. Myrtucommulone‐A mediated an increase in apoptotic genes including Fas, FasL, Gadd45a, Tnf, Tnfsf12, Trp53, and caspase 4. The increase in myrtucommulone‐A dose (25 μM versus 6.25 μM) also upregulated the expression of genes, which are involved mainly in apoptosis, regulation of apoptosis, role of mitochondria in apoptotic signaling, cytokine activity, and tumor necrosis factor signaling. Our data indicate that myrtucommulone‐A could be utilized as a potential therapeutic compound with its molecular targets in apoptotic pathways.     

Hypofolins A – L,ent‐Labdane Diterpenoids from the Roots of Hypoestes phyllostachya ‘Pink Splash’

Twelve new ent‐labdane diterpenoids, hypofolins A – F ( 1 – 6 ) and hypofolins G – L ( 7a / 7b , 8a / 8b , and 9a / 9b ), were isolated from the roots of Hypoestes phyllostachya ‘Pink Splash’. Their structures were elucidated by extensive 1D‐ and 2D‐NMR spectroscopic and HR‐MS data. The absolute configurations of 1 , 2 , 5 , and 7a / 7b were determined by single crystal X‐ray diffraction and ECD analysis, as well as chemical transformations. Compounds 7a / 7b , 8a / 8b , and 9a / 9b were isolated as three pairs of interconverting mixture of two isomers between ketone and hemiketal types. Compound 1 showed weak cytotoxicity against SMMC‐7721 cell line with IC₅₀ value of 31.40 μm .     

Functional characterization of the mutations in Pepper mild mottle virus overcoming tomato tm‐1‐mediated resistance

In tomato plants, Pepper mild mottle virus (PMMoV) cannot replicate because the tm‐1 protein inhibits RNA replication. The resistance of tomato plants to PMMoV remains durable both in the field and under laboratory conditions. In this study, we constructed several mutant PMMoVs and analysed their abilities to replicate in tomato protoplasts and plants. We found that two mutants, PMMoV‐899R,F976Y and PMMoV‐899R,F976Y,D1098N, were able to replicate in tomato protoplasts, but only PMMoV‐899R,F976Y,D1098N was able to multiply in tomato plants. Further analysis showed that the D1098N mutation of the replication proteins weakened the inhibitory effect of the tm‐1 protein and enhanced the replication efficiency of PMMoV‐899R,F976Y,D1098N. We also observed that the infectivity of the viruses decreased in the order wild‐type PMMoV > PMMoV‐899R,F976Y > PMMoV‐899R,F976Y,D1098N in original host plants, pepper and tobacco plants. On the contrary, the single mutation D1098N abolished PMMoV replication in tobacco protoplasts. On the basis of these observations, it is likely that the deleterious side‐effects of mutations in replication proteins prevent the emergence of PMMoV mutants that can overcome tm‐1‐mediated resistance.     

Naphtho‐γ‐pyrones from Endophyte Aspergillus niger Occurring in the Liverwort Heteroscyphus tener (Steph.) Schiffn.

Bioactivity‐guided fractionation of the cytotoxic extract of Aspergillus niger, an endophytic fungus from the Chinese liverwort Heteroscyphus tener (Steph .) Schiffn ., afforded five new naphtho‐γ‐pyrones, rubrofusarin‐6‐O‐α‐D ‐ribofuranoside ( 1 ), (R)‐10‐(3‐succinimidyl)‐TMC‐256A1 ( 2 ), asperpyrone E ( 3 ), isoaurasperone A ( 4 ), and isoaurasperone F ( 5 ), as well as four known ones, dianhydroaurasperone C ( 6 ), aurasperone D ( 7 ), asperpyrone D ( 8 ), and asperpyrone A ( 9 ), together with a cytotoxic cyclic pentapeptide, malformin A₁ ( 10 ). Their structures were determined by extensive spectroscopic analysis. The absolute configurations of dimeric naphtho‐γ‐pyrones 3 – 9 were also determined by analysis of their respective CD spectra.     

Loss of the Birt–Hogg–Dubé gene product folliculin induces longevity in a hypoxia‐inducible factor–dependent manner

Signaling through the hypoxia‐inducible factor hif‐1 controls longevity, metabolism, and stress resistance in Caenorhabditis elegans. Hypoxia‐inducible factor (HIF) protein levels are regulated through an evolutionarily conserved ubiquitin ligase complex. Mutations in the VHL gene, encoding a core component of this complex, cause a multitumor syndrome and renal cell carcinoma in humans. In the nematode, deficiency in vhl‐1 promotes longevity mediated through HIF‐1 stabilization. However, this longevity assurance pathway is not yet understood. Here, we identify folliculin (FLCN) as a novel interactor of the hif‐1/vhl‐1 longevity pathway. FLCN mutations cause Birt–Hogg–Dubé syndrome in humans, another tumor syndrome with renal tumorigenesis reminiscent of the VHL disease. Loss of the C. elegans ortholog of FLCN F22D3.2 significantly increased lifespan and enhanced stress resistance in a hif‐1‐dependent manner. F22D3.2, vhl‐1, and hif‐1 control longevity by a mechanism distinct from insulin‐like signaling. Daf‐16 deficiency did not abrogate the increase in lifespan mediated by flcn‐1. These findings define FLCN as a player in HIF‐dependent longevity signaling and connect organismal aging, stress resistance, and regulation of longevity with the formation of renal cell carcinoma.     

Sinuladiterpenes A–F,New Cembrane Diterpenes from Sinularia flexibilis

Chromatographic investigation of the octocoral Sinularia flexibilis afforded six new cembrane diterpenes, sinuladiterpenes A–F ( 1 – 6 , resp.), in addition to four known cembranolides, 11‐episinulariolide acetate, 11 ‐ dehydrosinulariolide, 11‐episinulariolide, and sinulariolide. Their structures were elucidated by spectroscopic analysis, especially 2D‐NMR and HR‐ESI‐MS. Compound 2 exhibited significant in vitro cytotoxic activity against human colon adenocarcinoma (WiDr) cell line.     

A proteomics approach to study synergistic and antagonistic interactions of the fungal–bacterial consortium Fusarium oxysporum wild‐type MSA 35

Fusarium oxysporum is an important plant pathogen that causes severe damage of many economically important crop species. Various microorganisms have been shown to inhibit this soil‐borne plant pathogen, including non‐pathogenic F. oxysporum strains. In this study, F. oxysporum wild‐type (WT) MSA 35, a biocontrol multispecies consortium that consists of a fungus and numerous rhizobacteria mainly belonging to γ‐proteobacteria, was analyzed by two complementary metaproteomic approaches (2‐DE combined with MALDI‐Tof/Tof MS and 1‐D PAGE combined with LC‐ESI‐MS/MS) to identify fungal or bacterial factors potentially involved in antagonistic or synergistic interactions between the consortium members. Moreover, the proteome profiles of F. oxysporum WT MSA 35 and its cured counter‐part CU MSA 35 (WT treated with antibiotics) were compared with unravel the bacterial impact on consortium functioning. Our study presents the first proteome mapping of an antagonistic F. oxysporum strain and proposes candidate proteins that might play an important role for the biocontrol activity and the close interrelationship between the fungus and its bacterial partners.     

The apolipoprotein A‐I mimetic peptide,D‐4F,restrains neointimal formation through heme oxygenase‐1 up‐regulation

D‐4F, an apolipoprotein A‐I (apoA‐I) mimetic peptide, possesses distinctly anti‐atherogenic effects. However, the biological functions and mechanisms of D‐4F on the hyperplasia of vascular smooth muscle cells (VSMCs) remain unclear. This study aimed to determine its roles in the proliferation and migration of VSMCs. In vitro, D‐4F inhibited VSMC proliferation and migration induced by ox‐LDL in a dose‐dependent manner. D‐4F up‐regulated heme oxygenase‐1 (HO‐1) expression in VSMCs, and the PI3K/Akt/AMP‐activated protein kinase (AMPK) pathway was involved in these processes. HO‐1 down‐regulation with siRNA or inhibition with zinc protoporphyrin (Znpp) impaired the protective effects of D‐4F on the oxidative stress and the proliferation and migration of VSMCs. Moreover, down‐regulation of ATP‐binding cassette transporter A1 (ABCA1) abolished the activation of Akt and AMPK, the up‐regulation of HO‐1 and the anti‐oxidative effects of D‐4F. In vivo, D‐4F restrained neointimal formation and oxidative stress of carotid arteries in balloon‐injured Sprague Dawley rats. And inhibition of HO‐1 with Znpp decreased the inhibitory effects of D‐4F on neointimal formation and ROS production in arteries. In conclusion, D‐4F inhibited VSMC proliferation and migration in vitro and neointimal formation in vivo through HO‐1 up‐regulation, which provided a novel prophylactic and therapeutic strategy for anti‐restenosis of arteries.     

Nitric Oxide Production Inhibitory Eudesmane‐Type Sesquiterpenoids from Artemisia argyi

Six new eudesmane‐type sesquiterpene derivatives, artemargyinins A–F were isolated from the leaves of Artemisia argyi. Their structures were elucidated based on the extensive analysis of spectroscopic data. Artemargyinins A–F feature a lactone ring‐opening eudesmane‐type sesquiterpene with an isoprenoid group at C(8). All compounds were tested for their inhibitory effects on lipopolysaccharide‐induced nitric oxide (NO) production in RAW264.7 macrophages. Artemargyinins A–F showed more potent NO production inhibitory activity with IC₅₀ values ranging from 7.66±0.53 to 61.19±2.54 μM than the positive control quercetin (IC₅₀=74.34±1.39 μM). Among them, artemargyinins C and D exhibited strong inhibitory activity with IC₅₀ values of 8.08±0.21 and 7.66±0.53 μM, respectively.     

Mutual regulation of plant phospholipase D and the actin cytoskeleton

Membrane lipids and cytoskeleton dynamics are intimately inter‐connected in the eukaryotic cell; however, only recently have the molecular mechanisms operating at this interface in plant cells been addressed experimentally. Phospholipase D (PLD) and its product phosphatidic acid (PA) were discovered to be important regulators in the membrane–cytoskeleton interface in eukaryotes. Here we report the mechanistic details of plant PLD–actin interactions. Inhibition of PLD by n‐butanol compromises pollen tube actin, and PA rescues the detrimental effect of n‐butanol on F‐actin, showing clearly the importance of the PLD–PA interaction for pollen tube F‐actin dynamics. From various candidate tobacco PLDs isoforms, we identified NtPLDβ1 as a regulatory partner of actin, by both activity and in vitro interaction assays. Similarly to published data, the activity of tobacco PIP₂‐dependent PLD (PLDβ) is specifically enhanced by F‐actin and inhibited by G‐actin. We then identified the NtPLDβ1 domain responsible for actin interactions. Using sequence‐ and structure‐based analysis, together with site‐directed mutagenesis, we identified Asn323 and Thr382 of NtPLDβ1 as the crucial amino acids in the actin‐interacting fold. The effect of antisense‐mediated suppression of NtPLDβ1 or NtPLDδ on pollen tube F‐actin dynamics shows that NtPLDβ1 is the active partner in PLD–actin interplay. The positive feedback loop created by activation of PLDβ by F‐actin and of F‐actin by PA provides an important mechanism to locally increase membrane–F‐actin dynamics in the cortex of plant cells.     

Triterpene Saponins from the Roots of Ilex asprella

Six new triterpene saponins, ilexasprellanosides A–F ( 1 – 6 , resp.), together with eleven known compounds were isolated from the roots of Ilex asprella. The new saponins were characterized as ursa‐12,18‐dien‐28‐oic acid 3‐O‐β‐D ‐xylopyranoside ( 1 ), 19α‐hydroxyursolic acid 3‐O‐β‐D ‐(2′‐O‐acetylxylopyranoside) ( 2 ), 19α‐hydroxyursolic acid 3‐O‐β‐D ‐glucuronopyranoside ( 3 ), 3β,19α‐dihydroxyolean‐12‐en‐23,28‐dioic acid 28‐O‐β‐D ‐glucopyranoside ( 4 ), 19α‐hydroxyoleanolic acid 3‐O‐β‐D ‐(2′‐O‐acetylxylopyranoside) ( 5 ), 19α‐hydroxyoleanolic acid 3‐O‐β‐D ‐glucuronopyranoside ( 6 ). The structures of the new compounds were elucidated by analysis of their spectroscopic data and chemical degradation. Compounds 2, 4 , oleanolic acid 3‐O‐β‐D ‐glucuronopyranoside, 3‐β‐acetoxy‐28‐hydroxyurs‐12‐ene, and pomolic acid showed significant cytotoxic activities against human tumor cell line A549 (IC₅₀ values of 1.87, 2.51, 1.41, 3.24, and 5.63 μM , resp.).     

Inter‐subunit interaction and quaternary rearrangement defined by the central stalk of prokaryotic V1‐ATPase

V‐type ATPases (V‐ATPases) are categorized as rotary ATP synthase/ATPase complexes. The V‐ATPases are distinct from F‐ATPases in terms of their rotation scheme, architecture and subunit composition. However, there is no detailed structural information on V‐ATPases despite the abundant biochemical and biophysical research. Here, we report a crystallographic study of V₁‐ATPase, from Thermus thermophilus, which is a soluble component consisting of A, B, D and F subunits. The structure at 4.5 Å resolution reveals inter‐subunit interactions and nucleotide binding. In particular, the structure of the central stalk composed of D and F subunits was shown to be characteristic of V₁‐ATPases. Small conformational changes of respective subunits and significant rearrangement of the quaternary structure observed in the three AB pairs were related to the interaction with the straight central stalk. The rotation mechanism is discussed based on a structural comparison between V₁‐ATPases and F₁‐ATPases.     

Immunosuppressive Withanolides from Withania coagulans

Six new withanolides, withacoagulins A–F ( 1 – 6 , resp.), together with ten known withanolides, 7 – 16 , were isolated from the aerial parts of Withania coagulans. Their structures were determined by spectroscopic techniques including 1D‐ and 2D‐NMR (¹H, ¹³C, HMQC, and HMBC) and MS experiments. These compounds, including the crude extracts of this herb, exhibited strong inhibitory activities on the T‐ and B‐cell proliferation.     

2‐D DIGE reveals changes in wheat xylanase inhibitor protein families due to Fusarium graminearum ΔTri5 infection and grain development

Wheat contains three different classes of proteinaceous xylanase inhibitors (XIs), i.e. Triticum aestivum xylanase inhibitors (TAXIs) xylanase‐inhibiting proteins (XIPs), and thaumatin‐like xylanase inhibitors (TLXIs) which are believed to act as a defensive barrier against phytopathogenic attack. In the absence of relevant data in wheat kernels, we here examined the response of the different members of the XI protein population to infection with a ΔTri5 mutant of Fusarium graminearum, the wild type of which is one of the most important wheat ear pathogens, in early developing wheat grain. Wheat ears were inoculated at anthesis, analyzed using 2‐D DIGE and multivariate analysis at 5, 15, and 25 days post anthesis (DPA), and compared with control samples. Distinct abundance patterns could be distinguished for different XI forms in response to infection with F. graminearum ΔTri5. Some (iso)forms were up‐regulated, whereas others were down‐regulated. This pathogen‐specific regulation of proteins was mostly visible at five DPA and levelled off in the samples situated further from the inoculation point. Furthermore, it was shown that most identified TAXI‐ and XIP‐type XI (iso)forms significantly increased in abundance from the milky (15 DPA) to the soft dough stages (25 DPA) on a per kernel basis, although the extent of increase differed greatly. Non‐glycosylated XIP forms increased more strongly than their glycosylated counterparts.     

Triterpene Glucosides from the Leaves of Aralia elata and Their Cytotoxic Activities

Three new triterpene glucosides, named congmuyenosides C–E ( 1 – 3 , resp.), along with four known ones, were isolated from an EtOH extract of Aralia elata (Miq .) Seem . leaves. The structures of the new compounds were identified as 3‐O‐{β‐D ‐glucopyranosyl‐(1→3)‐β‐D ‐glucopyranosyl‐(1→3)‐[β‐D ‐glucopyranosyl‐(1→2)]‐β‐D ‐glucopyranosyl}caulophyllogenin ( 1 ), 3‐O‐{β‐D ‐glucopyranosyl‐(1→3)‐β‐D ‐glucopyranosyl‐(1→3)‐[β‐D ‐glucopyranosyl‐(1→2)]‐β‐D ‐glucopyranosyl}hederagenin 28‐O‐β‐D ‐glucopyranosyl ester ( 2 ), 3‐O‐{β‐D ‐glucopyranosyl‐(1→3)‐β‐D ‐glucopyranosyl‐(1→3)‐[β‐D ‐glucopyranosyl‐(1→2)]‐β‐D ‐glucopyranosyl}echinocystic acid 28‐O‐β‐D ‐glucopyranosyl ester ( 3 ) on the basis of spectral analyses, including MS, ¹H‐NMR, ¹³C‐NMR, DEPT, HSQC, HMBC, NOESY, and HSQC‐TOCSY experiments. All isolates obtained were evaluated for their cytotoxic activities against three human tumor cell lines (HepG2, SKOV3, and A549). Compound 3 showed significant cytotoxicity against A549 cell line (IC₅₀ 9.9±1.5 μM ).     

Examination of the active secondary structure of the peptide 101.10, an allosteric modulator of the interleukin‐1 receptor,by positional scanning using β‐amino γ‐lactams

The relationship between the conformation and biological activity of the peptide allosteric modulator of the interleukin‐1 receptor 101.10 (D ‐Arg‐D ‐Tyr‐D ‐Thr‐D ‐Val‐D ‐Glu‐D ‐Leu‐D ‐Ala‐NH₂) has been studied using (R)‐ and (S)‐Bgl residues. Twelve Bgl peptides were synthesized using (R)‐ and (S)‐cyclic sulfamidate reagents derived from L ‐ and D ‐aspartic acid in an optimized Fmoc‐compatible protocol for efficient lactam installment onto the supported peptide resin. Examination of these (R)‐ and (S)‐Bgl 101.10 analogs for their potential to inhibit IL‐1β‐induced thymocyte cell proliferation using a novel fluorescence assay revealed that certain analogs exhibited retained and improved potency relative to the parent peptide 101.10. In light of previous reports that Bgl residues may stabilize type II′β‐turn‐like conformations in peptides, CD spectroscopy was performed on selected compounds to identify secondary structure necessary for peptide biological activity. Results indicate that the presence of a fold about the central residues of the parent peptide may be important for activity. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.     

A new type of 3‐D peripheral ultrastructure in Glaucocystis (Glaucocystales,Glaucophyta) as revealed by ultra‐high voltage electron microscopy

The coccoid glaucophyte genus Glaucocystis is characterized by having a thick cell wall, which has to date prohibited examination of the native ultrastructural features of the protoplast periphery. Recently, however, the three‐dimensional (3‐D) ultrastructure of the protoplast periphery was revealed in two divergent Glaucocystis species, with the world's most powerful ultra‐high voltage electron microscope (UHVEM). The two species exhibit morphological diversity in terms of their 3‐D ultrastructural features. However, these two types do not seem to encompass actual ultrastructural diversity in the genetically diverse genus Glaucocystis. Here, we report a new type of peripheral 3‐D ultrastructure resolved in “G. incrassata” SAG 229‐2 cells by 3‐D modeling based on UHVEM tomography using high‐pressure freezing and freeze‐substitution fixation. The plasma membrane and underlying flattened vesicles in “G. incrassata” SAG 229‐2 exhibited grooves at intervals of 200–600 nm, and the flattened vesicles often overlapped one another at the protoplast periphery. This 3‐D ultrastructure differs from those of the two types previously reported in other species of Glaucocystis. The possibility of classification of Glaucocystis species based on the 3‐D ultrastructure of the protoplast periphery is discussed.     

α‐Glucosidase Inhibitors from the Fungus Aspergillus terreus 3.05358

One new diketopiperazine alkaloid amauromine B ( 1 ), along with three known meroterpenoids, austalide B ( 2 ), austalides N and O ( 3 and 4 ), and two known steroids ( 5 and 6 ), was isolated and identified from the culture broth of the fungus Aspergillus terreus 3.05358. Their structures were elucidated by extensive spectroscopic techniques, including 2D‐NMR and MS analysis, the absolute configuration of 1 was unambiguously established by single crystal X‐ray diffraction analysis. All the isolates were evaluated for their inhibitory effects on α‐glucosidase. Amauromine B ( 1 ) and austalide N ( 3 ) exhibited more potent α‐glucosidase inhibitory activities than the positive control acarbose.     

Cytotoxic Polyphenols from a Sponge‐Associated Fungus Aspergillus versicolor Hmp‐48

A new dibenzo[1,4]dioxin 1 , and two new prenylated diphenyl ethers, 2 and 3 , together with six known compounds, 4 – 9 , were isolated from a sponge‐associated fungus Aspergillus versicolor Hmp‐F48 by bioactivity‐guided fractionation. Their structures were elucidated by 1D‐ and 2D‐NMR, and MS analyses. The compounds showed potent cell growth inhibitory activities against HL‐60 cell line.