Irregularly Bridged Epipolythiodioxopiperazines and Related Analogues: Sources, Structures, and Biological Activities.

Epipolythiodioxopiperazines (ETPs) are a class of biologically active fungal secondary metabolites characterized by a bridged polysulfide piperazine ring. Regularly, the sulfide functionality is attached in the α-positions of the dioxopiperazine scaffold. However, ETPs possessing irregular sulfur bridges have rarely been explored. This review summarizes that 83 compounds of this subtype have been isolated and characterized since the discovery of gliovirin in 1982. Herein, particular emphasis is given to the isolation, chemistry, and biological activity of this subtype. For a better understanding, a relevant summary focusing on the source microorganisms and their taxonomy is provided and will help elucidate the fascinating chemistry and biology of these unusual ETPs.

Identification of a Potent Enzyme for the Detoxification of Zearalenone.

The occurrence of mycotoxin zearalenone (ZEN) and its derivatives has been a severe global threat to food and animals. In addition to the chemical and physical degradation methods, a powerful biocatalyst is urgently required for the detoxification of ZEN. Here, an efficient ZEN-degrading lactonase from Gliocladium roseum, named ZENG, was identified for the first time. The recombinant ZENG exhibited the highest activity at pH 7.0 and 38 °C. In addition, the recombinant enzyme showed a high degrading performance toward ZEN and its toxic derivatives α-zearalenol (α-ZOL) and α-zearalanol (α-ZAL), with the specific activities as 315, 187, and 117 units/mg, respectively. To meet the industrial demands, attempts were also made to enhance the thermostability of ZENG using a structure-based modification. Three double-site mutants, including H134L/S136L, H134F/S136F, and H134I/S134I, in the position between the cap and core catalytic domain of ZENG were designed. Finally, the thermostability of both H134L/S136L and H134F/S136F displayed a significant improvement compared to the wild-type enzyme.

Cyclic heptapeptides from the soil-derived fungus Clonostachys rosea.

Three new cyclic heptapeptides (1-3) together with three known compounds (4-6) were isolated from a solid rice culture of the soil-derived fungus Clonostachys rosea. Fermentation of the fungus on white beans instead of rice afforded a new γ-lactam (7) and a known γ-lactone (8) that were not detected in the former extracts. The structures of the new compounds were elucidated on the basis of 1D and 2D NMR spectra as well as by HRESIMS data. Compounds 1 and 4 exhibited significant cytotoxicity against the L5178Y mouse lymphoma cell line with IC50 values of 4.1 and 0.1 µM, respectively. Compound 4 also displayed cytotoxicity against the A2780 human ovarian cancer cell line with an IC50 value of 3.5 µM. The preliminary structure-activity relationships are discussed.

Biotransformation of quercetin by Gliocladium deliquescens NRRL 1086.

With an attempt to synthesize high-value isoquercitrin (quercetin-3-O-ß-D-glucopyranoside), we carried out the biotransformation of quercetin (1) by Gliocladium deliquescens NRRL 1086. Along with the aimed product quercetin 3-O-ß-D-glycoside (2), three additional metabolites, 2-protocatechuoyl-phlorogucinol carboxylic acid (3), 2,4,6-trihydroxybenzoic acid (4), and protocatechuic acid (5), were also isolated. The time-course experiments revealed that there were two metabolic routes, regio-selectivity glycosylation and quercetin 2,3-dioxygenation, co-existing in the culture. Both glycosylation and oxidative cleavage rapidly took place after quercetin feeding; about 98% quercetin were consumed within the initial 8 h and the oxdized product (2-protocatechuoyl-phlorogucinol carboxylic acid) was hydrolyzed into two phenolic compounds (2,4,6-trihydroxybenzoic acid and protocatechuic acid). We also investigated the impact of glucose content and metal ions on the two reactions and found that high concentrations of glucose significantly inhibited the oxidative cleavage and improved the yield of isoquercitrin and that Ca2+, Fe2+, Mn2+, Mg2+, and Zn2+ inhibited glycosylation. To test the promiscuity of this culture, we selected other four flavonols as substrates; the results demonstrated its high regio-selectivity glycosylation ability towards flavonols at C-3 hydroxyl. In conclusion, our findings indicated that the versatile microbe of G. deliquescens NRRL 1086 maitained abundant enzymes, deserving further research.

Synthesis and bioactivity of diketopiperazine PJ147 and its derivatives from Gliocladium sp. YUP08.

Concise total synthesis of diketopiperazine PJ147, obtained from mycelium of Gliocladium sp. YUP08, has been achieved in seven steps with 43.5% overall yield. Biological evaluation of PJ147 exhibited strong inhibiting activity against A375-S2, Hela, P388, A-549, HL-60, and BEL-7420 cell lines. Thus, eight derivatives of PJ147 with high water solubility were also synthesized to facilitate the in vivo bioassay of this kind of diketopiperazines.

An antimicrobial diketopiperazine alkaloid and co-metabolites from an endophytic strain of Gliocladium isolated from Strychnos cf. toxifera.

From an endophytic strain of Gliocladium sp. isolated from the Amazonian plant Strychnos cf. toxifera, we obtained the diketopiperazine alkaloid cyclo-(glycyl-L-tyrosyl)-4,4-dimethylallyl ether (1), the steroids ergosterol (2), ergosterol peroxide (3), cerevisterol (4) and the citric acid (5). The AcOEt extract of the fermented broth by Gliocladium sp. showed potent activity against the cancer cell lines MDA-MB435 (human breast cancer cells), HCT-8 (human colorectal cancer cells) and SF-295 (human glioblastoma cancer cells). Compound 1 exhibited a strong antimicrobial activity against Micrococcus luteus at a concentration of 43.4 µM.

Cytotoxic piperazine-2,5-dione derivatives from marine fungus Gliocladium sp.

Two new piperazine-2,5-dione derivatives, gliocladride A (1) and B (2), along with deoxymycelianamide (3) were isolated from the mycelial mass of marine fungus Gliocladium sp. Their structures were established on the basis of spectral data, and the stereochemical assignments were made by chiral HPLC analysis of the hydrolyzed compounds and optical rotation comparison with known compound. Their cytotoxic activity was tested on three cancer cell lines, HL-60, U937 and T47D by MTT assay. As a result, gliocladride A (1) and B (2) showed moderate cytotoxic activity against the three cell lines with IC50 values from 11.60 microg/ml to 52.83 microg/ml, while deoxymycelianamide (3) showed strong cytotoxic activity against U937 cell line with IC50 values of 0.785 microg/ml.

Computer-aided rational molecular design of argifin-derivatives with increased inhibitory activity against chitinase B from Serratia marcescens.

Argifin, a novel pentapeptide chitinase inhibitor isolated from Gliocladium fungal culture, is a promising candidate for the development of new fungicides, insecticides, and anti-asthma medications. In this study, we undertook rational molecular design of argifin-derivatives and tested them against chitinase B from Serratia marcescens (SmChiB). The work involved molecular dynamics simulation with explicit water molecules, the molecular docking calculation, and free-energy analysis using the molecular mechanics Poisson-Boltzmann surface area method. The custom-designed derivatives were synthesized via effective solid phase synthesis, developed recently in our laboratory, and their inhibitory activities were measured against SmChiB. Finally, we identified and obtained a derivative which exhibited 28-fold more inhibition than argifin itself, a compound in which the d-Ala(5) of argifin was replaced with d-Leu and the 4-benzylpiperdine was attached to l-Asp(4).

The production of myco-diesel hydrocarbons and their derivatives by the endophytic fungus Gliocladium roseum (NRRL 50072).

An endophytic fungus, Gliocladium roseum (NRRL 50072), produced a series of volatile hydrocarbons and hydrocarbon derivatives on an oatmeal-based agar under microaerophilic conditions as analysed by solid-phase micro-extraction (SPME)-GC/MS. As an example, this organism produced an extensive series of the acetic acid esters of straight-chained alkanes including those of pentyl, hexyl, heptyl, octyl, sec-octyl and decyl alcohols. Other hydrocarbons were also produced by this organism, including undecane, 2,6-dimethyl; decane, 3,3,5-trimethyl; cyclohexene, 4-methyl; decane, 3,3,6-trimethyl; and undecane, 4,4-dimethyl. Volatile hydrocarbons were also produced on a cellulose-based medium, including heptane, octane, benzene, and some branched hydrocarbons. An extract of the host plant, Eucryphia cordifolia (ulmo), supported the growth and hydrocarbon production of this fungus. Quantification of volatile organic compounds, as measured by proton transfer mass spectrometry (PTR-MS), indicated a level of organic substances in the order of 80 p.p.m.v. (parts per million by volume) in the air space above the oatmeal agar medium in an 18 day old culture. Scaling the PTR-MS profile the acetic acid heptyl ester was quantified (at 500 p.p.b.v.) and subsequently the amount of each compound in the GC/MS profile could be estimated; all yielded a total value of about 4.0 p.p.m.v. The hydrocarbon profile of G. roseum contains a number of compounds normally associated with diesel fuel and so the volatiles of this fungus have been dubbed 'myco-diesel'. Extraction of liquid cultures of the fungus revealed the presence of numerous fatty acids and other lipids. All of these findings have implications in energy production and utilization.

Bioactive p-terphenyl derivatives from a Cordyceps-colonizing isolate of Gliocladium sp.

Gliocladinins A (1) and B (2), two new p-terphenyl derivatives, have been isolated from solid cultures of an isolate of Gliocladium sp. that colonizes Cordyceps sinensis. The structures of these compounds were determined mainly by analysis of their NMR spectroscopic data. In standard disk assays, compounds 1 and 2 showed modest antimicrobial activity against Staphylococcus aureus (ATCC 6538). In addition, these compounds displayed inhibitory effects on the growth of two human tumor cell lines, HeLa and HCT116.

A new piperazine-2,5-dione from the marine fungus Gliocladium sp.

A new piperazine-2,5-dione, named gliocladride, was isolated from marine fungus Gliocladium sp. The structure was established on the basis of spectral data, and the stereochemical assignments were made by 1H NMR spectrum and chiral HPLC of the hydrolyzed compound. Gliocladride showed a cytotoxic effect with an IC50 value of 3.86 microg/ml against human A375-S2 melanoma cell line.

Two diketopiperazines from marine fungus Gliocladium sp. YUP08.

Two new diketopiperazines, PJ147 (1) and PJ157 (2), were isolated from the mycelium of a fungus, Gliocladium sp. YUP08, which was separated from sea mud collected in Rushan, Shandong, China. Their structures were elucidated by spectroscopical and chemical methods.

Bioactivity profiling using HPLC/microtiter-plate analysis: application to a New Zealand marine alga-derived fungus, Gliocladium sp.

Using HPLC/microtiter-plate-based generation of activity profiles the extract of a marine alga-derived fungus, identified as Gliocladium sp., was shown to contain the known strongly cytotoxic metabolite 4-keto-clonostachydiol (1) and also clonostachydiol (2) as well as gliotide (3), a new cyclodepsipeptide containing several D-amino acids. The absolute configuration of 1 was elucidated by reduction to 2, and two further oxidized derivatives of clonostachydiol (5, 6) were prepared and evaluated for biological activity.

Secalonic acid D; A cytotoxic constituent from marine lichen-derived fungus Gliocladium sp. T31.

Secalonic acid D (SAD) was isolated as the major secondary metabolite of the marine lichen-derived fungus Gliocladium sp. T31. Its structure was established on the basic of physico-chemical and spectroscopic data. This is the first report on the isolation of SAD from this fungus, as well as its inhibitory effect on K562 cell cycle and its cytotoxicity against several tumor cell lines in vitro.

Nematicidal epipolysulfanyldioxopiperazines from Gliocladium roseum.

Five new verticillin-type epipolysulfanyldioxopiperazines, gliocladine A (1), B (2), C (3), D (4), and E (5), were isolated from wheat solid-substrate fermentation of Gliocladium roseum 1A, along with four known compounds, verticillin A (6), 11'-deoxyverticillin A (7), Sch52900 (8), and Sch52901 (9). Their structures were elucidated by extensive 1D and 2D NMR studies, MS, and chemical transformations. In vitro immersion tests showed that all nine compounds exhibited antinematodal activity against Caenorhabditis elegans and Panagrellus redivivus. The monomeric epipolysulfanydioxopiperazines (3-5), with the indole moiety, were found to be less active than the dimeric compounds (1, 2, 6-8).

Cladionol A, a polyketide glycoside from marine-derived fungus Gliocladium species.

A new polyketide glycoside, cladionol A (1), was isolated from the cultured broth of a fungus Gliocladium sp., which was separated from sea grass Syringodium isoetifolium, and the structure was elucidated by spectroscopic data. The relative stereochemistry of C-2-C-3 was assigned by mainly J-based configuration analysis, while those of two sugar units were elucidated to be beta-mannopyranoside and arabitol on the basis of NOESY data and/or 1H-1H couplings. Furthermore, the absolute configuration of the mannose moiety was determined as the D-form on the basis of chiral HPLC analysis of a benzoyl derivative of the acid hydrolysate of 1. Cladionol A (1) exhibited modest cytotoxicity.

Core structure in roselipins essential for eliciting inhibitory activity against diacylglycerol acyltransferase.

Fungal roselipins, discovered as inhibitors of diacylglycerol acyltransferase (DGAT), consist of three parts; highly methylated C20 fatty acid, mannose and arabinitol. Demannosyl and/or dearabinitoyl roselipins were prepared chemically or enzymatically. Demannnosyl roselipins conserved the DGAT inhibitory activity, but the others lost the activity, indicating that the arabinitoyl fatty acid core is essential for eliciting the activity.

Chemical-microbiological synthesis of cryptomeridiol derivatives by Gliocladium roseum: semisynthesis of 11-hydroxyeudesmanolides.

Biotransformations of 4alpha- and 4beta-hydroxyeudesmane derivatives by the filamentous fungus Gliocladium roseum were achieved. Hydroxylation at C-11 was the main action of this microorganism, producing new cryptomeridiol (12 and 14) and 4-epi-cryptomeridiol derivatives (6 and 7), respectively, in good yields. The biotransformation activity of G. roseum toward 4beta-hydroxyeudesmane was focused on the isopropyl moiety, but more scattered on the 4alpha-hydroxylated derivative, acting in both the "A" and "B" rings and the isopropyl group of the molecule. Semisyntheses of 11-hydroxyeudesmanolides from the isolated 11,12-dihydroxylated metabolites were also accomplished and used in assigning the stereochemistry of hydroxylation.

Scale-up studies on a defined medium process for pilot plant production of illicicolin by Gliocladium roseum.

Illicicolin was cultivated at the 600-L pilot scale for purposes of material generation and process development. The initial medium containing oat flour was difficult operationally as a result of excessive foaming during sterilization, so a new defined medium process (with either glucose or sucrose as the carbon source), developed at the 23-L scale, was scaled up and improved for pilot scale needs. Pilot scale media development efforts focused on exploring the highest concentration of media (1.0 x to 3.0 x) that could be cultivated at the pilot scale and not be limited by mixing or oxygen mass transfer. The process was scaled up successfully and peak titers improved 7.5-fold, from about 200 mg/L in the initial complex medium to 1500 mg/L in the final defined medium.

[Secondary metabolites of Gliocladium sp., a growth accelerating fungus for Anoectochilus roxburghii (Wall.) Lindl].

OBJECTIVE: To study the secondary metabolites of fungus Gliocladium sp. that helps accelerate the growth of A. roxburghii. METHOD: Compoud isolation by chromatography and structure elucidation by chemical and spectral analyses. RESULTS: Five compounds were obtained and elucidated as: 8(E)-N-(2'-hydroxypalmityl)-1-O-beta-gly-copyranosyl-3-hydroxyl-9-methyl-2- octodecanine-4, 8-diene (I), N-(2'-hydroxytetracosanoyl)-1,3,4-trihydroxy-2-octodecanine(II), 7, 22-diene-3-hydroxy-6,9-epidioxyergosta(III), ergostol(IV) and alpha-palmitin(V). CONCLUSION: I, II, III were obtained from Gliocladium sp. for the first time.