Isolation and identification of an anticancer drug,taxol from <Emphasis Type="Italic">Phyllosticta tabernaemontanae</Emphasis>, a leaf spot fungus of an angiosperm, <Emphasis Type="Italic">Wrightia tinctoria</Emphasis>

Phyllosticta tabernaemontanae, a leaf spot fungus isolated from the diseased leaves of Wrightia tinctoria, showed the production of taxol, an anticancer drug, on modified liquid medium (MID) and potato dextrose broth (PDB) medium in culture for the first time. The presence of taxol was confirmed by spectroscopic and chromatographic methods of analysis. The amount of taxol produced by this fungus was quantified using high performance liquid chromatography (HPLC). The maximum amount of taxol production was recorded in the fungus grown on MID medium (461 μg/L) followed by PDB medium (150 μg/L). The production rate was increased to 9.2 × 10³ fold than that found in the culture broth of earlier reported fungus, Taxomyces andreanae. The results designate that P. tabernaemontanae is an excellent candidate for taxol production. The fungal taxol extracted also showed a strong cytotoxic activity in the in vitro culture of tested human cancer cells by apoptotic assay.     

Production of taxol from Phyllosticta dioscoreae, a leaf spot fungus isolated from Hibiscus rosa-sinensis

Taxol is a highly functionalized anticancer drug widely used in hospitals and clinics. The leaf spot fungus, Phyllosticta dioscoreae was isolated from diseased leaves of Hibiscus rosa-sinensis and screened for extracellular production of taxol in M1D (Modified liquid medium) and PDB (Potato dextrose broth) medium for the first time. The fungus was identified by its morphological and conidial features in the culture growth. The presence of taxol in the fungal culture filtrate was confirmed by different spectroscopic and chromatographic analyses. The amount of taxol produced was quantified by HPLC. The maximum amount of taxol produced was found to be 298 μg/L in M1D medium. Production rate was 5.96 × 10³ times faster than that found in culture broth of earlier reported fungus, Taxomyces andreanae. The extracted fungal taxol also showed strong cytotoxic activity in vitro in the cultures of human cancer cells tested by apoptotic assay. The results indicate that P. dioscoreae is an excellent source of taxol production, which suggests that the fungus has potential to undergo genetic engineering in order to improve its production level.     

In vitro screening of taxol,an anticancer drug produced by the fungus,Colletotrichum capsici

The fungus Colletotrichum capsici was isolated from the diseased fruits of Chilli plant, Capsicum annuum. The isolated test fungus was identified by its morphological and molecular characteristic features. For the first time, the fungus was screened for the production of taxol on modified liquid medium. The presence of taxol was confirmed by the spectroscopic and chromatographic methods of analyses. The amount of taxol produced by this fungus was quantified by HPLC. The maximum amount of fungal taxol production was recorded as 687 μg/L. The production rate was 13 740‐fold higher than that, previously reported for the fungus Taxomyces andreanae. The extracted fungal taxol showed a strong cytotoxic activity in an in vitro culture of human cancer cells indicating that the increase in taxol concentration induces increased cell death. A PCR‐based screening for taxadiene synthase (ts), a unique gene in the formation of the taxane skeleton, confirmed the molecular blueprint for taxol biosynthesis. The results show that the fungus C. capsici is an excellent candidate for an alternate source of taxol supply and can serve as a potential species for genetic engineering to enhance the production of taxol to a higher level.     

Taxol,an anticancer drug produced by an endophytic fungus <Emphasis Type="Italic">Bartalinia robillardoides</Emphasis> Tassi,isolated from a medicinal plant, <Emphasis Type="Italic">Aegle marmelos</Emphasis> Correa ex Roxb.

Taxol is an important anticancer drug widely used in the clinic. An endophytic fungus Bartalinia robillardoides (strain AMB-9) was isolated from Aegle marmelos, a medicinal plant and screened for taxol production. The fungus was identified based on the morphology of the fungal culture and the characteristics of the spores. This fungus was grown in MID liquid medium and analyzed chromatographically and spectrometrically, for the presence of Taxol. The amount of taxol produced by this endophytic fungus was quantified by HPLC. It produced 187.6 μg/L of taxol which suggests that the fungus can serve as a potential material for genetic engineering to improve the production of Taxol. This fungal taxol isolated from the organic extract of this fungal culture, has strong cytotoxic activity towards BT 220, H116, Int 407, HL 251 and HLK 210 human cancer cells in vitro, tested by Apoptotic assay.     

Taxol Determination from Pestalotiopsis pauciseta, a Fungal Endophyte of a Medicinal Plant

Taxol is the most effective antitumor agent developed in the past three decades. It has been used for effective treatment of a variety of cancers. A taxol-producing endophytic fungus Pestalotiopsis pauciseta (strain CHP-11) was isolated from the leaves of Cardiospermum helicacabum and screened for taxol production. The fungus was identified based on the morphology of the fungal culture and the characteristics of the spores and screened for taxol production. The amount of taxol produced by this endophytic fungus was quantified by HPLC and it produced 113.3 mg/L, thus the fungus can serve as a potential material for fungus engineering to improve taxol production. This fungal taxol also had strong anticancer activity against some cancer cells viz., BT 220, H116, Int 407, HL 251 and HLK 210 tested by Apoptotic assay and it is indicated that with the increase of taxol concentration from 0.005–0.05 mmol/L, taxol induced increased cell death through apoptosis.     

Enhancement of taxol production from endophytic fungus Fusarium redolens

The optimization of taxol production by Fusarium redolens by one factor at a time (OFAT) approach led to production of 70 μg/L of taxol. With sucrose and NH₄NO₃ as the carbon and nitrogen sources and medium volume (V _m ) to flask volume (V _f ) ratio of 0.2, a greater taxol production was attained. NH₄NO₃, MgSO₄?7H₂O and NaOAc at 6.25, 0.63, and 1.25 g/L, were the significant factors for attaining the highest taxol production. The optimization of culture variables led to the production of taxol from 66 to 198 μg/L, which is three fold higher than that in the unoptimized medium. Current study results suggested the success of Response Surface Methodology in enhancing the production of fungal taxol.     

Taxol from Tubercularia sp. strain TF5, an endophytic fungus of Taxus mairei

The diterpenoid taxol is an important anticancer agent used widely in the clinic. The purpose of this work was to identify a taxol-producing endophytic fungus (strain TF5) isolated from Taxus mairei and study its anticancer activities. Strain TF5 was identified as a Tubercularia sp. according to the morphology of the fungal culture, the mechanism of spore production and the characteristics of the spores. Strain TF5 produced taxol, when grown in potato dextrose liquid medium and analyzed by thin layer chromatography, high performance liquid chromatography, ultraviolet and mass spectrometry. The fungal taxol, which was isolated from the organic extract of the TF5 culture, had strong cytotoxic activity towards KB and P388 cancer cells in vitro, tested by the MTT assay. Observed with immunofluorescence and electron microscopy, the fungal taxol enhanced microtubule stability and bundling in culture cells and induced tubulin polymerization in vitro similar to the authentic taxol.     

The induction of taxol production in the endophytic fungus—Periconia sp from Torreya grandifolia

A Periconia sp was isolated from Torreya grandifolia (a relative of yew that does not synthesize taxol) near Huangshan National Park in the People’s Republic of China. This fungus, not previously known as a tree endophyte, was isolated from the inner bark of a small lower limb. When freshly isolated from the tree and placed in a semi-synthetic medium, the fungus produced readily detectable quantities of the anticancer drug taxol. Other taxol-producing endophytes were also isolated from this source. The production of taxol by Periconia sp was demonstrated unequivocally via spectroscopic and immunological methods. However, successive transfers of the fungus in semi-synthetic medium resulted in gradual attenuation until low production occurred even though fungal growth was relatively unaffected. Several compounds, known previously as activators of microbial metabolism, including serinol, p-hydroxybenzoic acid, and a mixture of phenolic acids, were capable of fully or partially restoring taxol production to otherwise taxol-attenuated cultures. The compound with the most impressive ability to activate taxol production was benzoic acid at 0.01 mM. Benzoic acid was not a taxol precursor. Received 19 December 1997/ Accepted in revised form 19 February 1998     

Paclitaxel production is enhanced in suspension‐cultured hazel (Corylus avellana L.) cells by using a combination of sugar,precursor, and elicitor

Hazel (Corylus avellana L.) has recently been drawing attention as an alternative source of taxol. In the present study, the effects of sugar type, and different concentrations of phenylalanine (Phe) and vanadyl sulfate (V) on the production of taxol in C. avellana were investigated. A factorial experiment was used to optimize the concentrations of the precursor and elicitor. The cells were treated with Phe and V on the fourth day of culture and were harvested every 2 days until the 10th day. By increasing the Phe and V supply, taxol production increased during the culture period and the maximum level of 4.2 μg/g (dry weight) was obtained at day 10 by combining 3 μM of Phe and 0.05 and 0.1 mM of V in media supplemented with fructose (3%). The time course study on taxol production suggested that the appropriate time for using Phe is day 4 of culture, and day 8 for V. Overall, taxol production in C. avellana cell suspension culture was improved by the use of the combined strategy.     

Optimization of culture conditions for mycoepoxydiene production by <Emphasis Type="Italic">Phomopsis</Emphasis> sp. Hant25

Culture media and fermentation conditions for cultivation of an endophytic fungus Phomopsis sp. Hant25 were investigated in order to improve the yield of mycoepoxydiene, a novel fungal metabolite having potent cytotoxic activity against many cancer cell lines. Mycoepoxydiene accumulated in the culture broth during the stationary phase of fungal growth. Modified M1D medium was superior to malt Czapek, and Czapek yeast autolysate broths in supporting mycoepoxydiene production. Pellet growth was the morphological form that favored biosynthesis of mycoepoxydiene. This could be achieved by incubating the culture statically for 6 days before shaking at 120 rpm. Incorporation of a cellulose paper disc into the culture flask promoted fungal growth at the liquid surface, which accelerated mycoepoxydiene production and maximized the final yield to a level of 354 mg l⁻¹, though fungal attachment to the solid support was not required. Since the peak concentration of mycoepoxydiene in the culture broth was followed by a steeply declining phase, the harvest time had to be precisely determined for maximum product yield. Understanding the factor(s) involved in rapid degradation of mycoepoxydiene could lead to improved final yields.     

<Emphasis Type="Italic">Fusarium solani</Emphasis>, Tax-3, a new endophytic taxol-producing fungus from <Emphasis Type="Italic">Taxus chinensis</Emphasis>

An endophytic fungus, Tax-3, was isolated from barks of Taxus chinensis grown in the Qinba mountains, China. The strain was classified into Fusarium solani based on the morphological characteristics and the molecular phylogenetics inferred from the nuclear ribosomal DNA ITS sequences with the sequence similarity values of 100%. High performance liquid chromatography (HPLC) assay showed the F. solani, Tax-3, produced taxol with a higher yield of 163.35 μg/L in the reformative potato dextrose liquid medium (d), revealing its potential applications for taxol production. Bai Wan Deng and Kai Hui Liu contributed equally to this work.     

Enhanced production of heteropolysaccharide-7 by <Emphasis Type="Italic">Beijerinckia indica</Emphasis> HS-2001 in repeated batch culture with optimized substitution of culture medium

In this study, a process of removing a half volume of culture broth and replacing it with an equal volume of substituted solution was developed to enhance the production of heteropolysaccharide-7 (PS-7) by Beijerinckia indica HS-2001. The optimal substitution time and volume of the substituted solution were found to be 48 h after cultivation and 50% of the initial volume of the culture broth. The optimal composition of the substituted solution was determined to be 20.0 g/L glucose, 10.0 g/L soybean pomace, 0.1 g/L MgSO₄·7H₂O, 0.9 g/L NH₄NO₃, and 5.0 g/L potassium phosphate, which was the same composition as the medium developed in a previous study for the production of PS-7 by B. indica HS-2001. The total amount and productivity of PS-7 by B. indica HS-2001 with a substitution under optimized conditions in a 7 L bioreactor for 96 h were 49.28 g and 0.51 g/h, respectively, which were 1.76 and 1.31-foldgreater values than those without a substitution for 72 h.     

Screening and breeding of high taxol producing fungi by genome shuffling

To apply the fundamental principles of genome shuffling in breeding of taxol-producing fungi, Nodulisporium sylviform was used as starting strain in this work. The procedures of protoplast fusion and genome shuffling were studied. Three hereditarily stable strains with high taxol production were obtained by four cycles of genome shuffling. The qualitative and quantitative analysis of taxol produced was confirmed using thin-layer chromatography (TLC), high performance liquid chromatography (HPLC) and LC-MS. A high taxol producing fungus, Nodulisporium sylviform F4-26, was obtained, which produced 516.37 μg/L taxol. This value is 64.41% higher than that of the starting strain NCEU-1 and 31.52%–44.72% higher than that of the parent strains.     

Identification of deoxynivalenol, 3-acetyldeoxynivalenol and zearalenone in the galactose oxidase-producing fungus Dactylium dendroides

The galactose oxidase-producing fungus Dactylium dendroides was re-identified as a Fusarium species. Fungi of this genus are well known for the production of mycotoxins. Verification of growth of this fungus on rice, corn and liquid medium described for the production of galactose oxidase is provided to determine whether the fungus could produce Fusarium toxins, namely, moniliformin, fusaric acid, fumonisin, zearalenone and the trichothecenes, deoxynivalenol, 3-acetyldeoxynivalenol, fusarenone, nivalenol, diacetoxyscirpenol, neosolaniol, and toxin T-2. Under the culture conditions used, deoxynivalenol, 3-acetyldeoxynivalenol and zearalenone were detected in the fungal culture medium. The finding is consistent with the hypothesis that the fungus is in fact a Fusarium species. This revised version was published online in July 2006 with corrections to the Cover Date.     

Optimization of a liquid medium for beauvericin production in <Emphasis Type="Italic">Fusarium redolens</Emphasis> Dzf2 mycelial culture

Beauvericin (BEA) is a proven and potent antibiotic compound useful for bio-control and a potential antifungal and anticancer agent for human. This study was to evaluate and optimize the nutrient medium for BEA production in mycelial liquid culture of a high BEA-producing fungus Fusarium redolens Dzf2 isolated from a medicinal plant. Among various organic and inorganic carbon and nitrogen sources, glucose and peptone were found the most favorable for the F. redolens Dzf2 mycelial growth and BEA production. Through a Plackett-Burman screening test on a basal medium, glucose, peptone, and medium pH were identified as the significant factors for mycelial growth and BEA production. These factors were optimized through central composite design of experiments and response surface methodology, as 49.0 g/L glucose, 13.0 g/L peptone and pH 6.6, yielding 198 mg/L BEA (versus 156 mg/L in the basal medium). The BEA yield was further increased to 234 mg/L by feeding 10 g/L glucose to the culture during exponential phase. The results show that F. redolens Dzf2 mycelial fermentation is a feasible and promising process for production of BEA.     

Production of taxol and related taxanes in Taxus brevifolia cell cultures: Effect of sugar

Summary Suspension cells of Taxus brevifolia were cultured as an alternative source of taxol and related taxanes. The effects of basal medium, sugar type, and sugar concentration on growth and taxane production were investigated. To induce taxol production, modification of medium composition was necessary. Fructose supported the best taxol yield and the use of high concentration of sugar was desirable. The maximum level of taxol obtained after 10 days of culture in an optimized condition was 1.43 mg/L, which was 0.013% as a specific content.     

Biosynthesis of Streptomycin

A method for the accumulation of the streptomycin precursor (L) in the culture broth of Streptomyces griseus was developed and the precursor was successfully isolated from the broth.

When the microorganism was cultured under shaking in the glucose-meat extract-peptone medium (0.5% glucose, 0.2% yeast extract, 0.2% meat extract, 0.4% peptone, 0.5% sodium chloride, 0.025% magnesium sulfate, pH 7.0), the accumulation of the precursor in the broth was induced by the addition of supplementary glucose (e.g., 2 g glucose per 100 ml broth) 24 hr after inoculation followed by further cultivation for 48 hr. Increased accumulation of L component was obtained merely by increasing glucose content in the culture medium (e.g., 5% glucose-containing medium in the above-indicated one) instead of glucose supplement on the way of fermentation. For the accumulation of a large amount of L component in a culture broth, it looked to be necessary for pH value of the broth to be maintained between 6 and 7 during fermentation.

L component was isolated from the culture broth by adsorption on Amberlite IRC-50 and elution with 2% NaCl solution. The L component was separated on this column from contaminated streptomycin which requires 5% NaCl solution to be eluted. The L component in the 2% NaCl eluate was adsorbed on active carbon at neutral or slightly alkaline pH and eluted with 95% methanol at acidic pH, Partially purified L component precipitated as hydrochloride by addition of acetone to the methanol extract which had been concentrated in vacuo.     

Effect of culture conditions on mycelial growth, antibacterial activity, and metabolite profiles of the marine-derived fungus Arthrinium c.f. saccharicola

The effects of culture conditions and competitive cultivation with bacteria on mycelial growth, metabolite profile, and antibacterial activity of the marine-derived fungus Arthrinium c.f. saccharicola were investigated. The fungus grew faster at 30°C, at pH 6.5 and in freshwater medium, while exhibited higher antibacterial activity at 25°C, at pH 4.5, 5.5, and 7.5, and in 34 ppt seawater medium. The fungus grew faster in a high-nitrogen medium that contained 0.5% peptone and/or 0.5% yeast extract, while exhibiting higher bioactivity in a high-carbon medium that contained 2% glucose. The fungal growth was inhibited when it was co-cultured with six bacterial species, particularly the bacterium Pseudoalteromonas piscida. The addition of a cell free culture broth of this bacterium significantly increased the bioactivity of the fungus. Metabolite profiles of the fungus revealed by gas chromatography (GC)-mass spectrometry showed clear difference among different treatments, and the change of relative area of three peaks in GC profile followed a similar trend with the bioactivity variation of fungal extracts. Our results showed clear differences in the optimal conditions for achieving maximal mycelial growth and bioactivity of the fungus, which is important for the further study on the mass cultivation and bioactive compounds isolation from this fungus.     

Cytotoxic Activity of Fungal Strains Isolated from the Ascidian Eudistoma vannamei

The cytotoxic activity at 50 μg/ml of extracts obtained from eleven fungal strains associated to Eudistoma vannamei, an endemic ascidian from Northeast Brazil, against two cell lines, i.e., the HCT‐8 (colon cancer) and the MDA‐MB‐435 (melanoma) cell lines, was investigated. The most promising extract (EV10) was obtained from a fungus identified as Aspergillus sp. by molecular analysis and was selected for bioassay‐guided isolation of its active principals. Large‐scale fermentation of EV10 in potato‐dextrose broth followed by chromatographic purification of the active extract from the liquid medium allowed the isolation of the isocoumarins mellein, cis‐4‐hydroxymellein, and trans‐4‐hydroxymellein, besides penicillic acid. All isolated compounds were tested for their cytotoxicity against the tumor cell lines MDA‐MB‐435 and HCT‐8 and revealed penicillic acid as the only cytotoxic compound (cell growth inhibitions >95%).     

Fusarium solani G6, a novel vitexin-producing endophytic fungus: characterization,yield improvement and osteoblastic proliferation activity

The study aimed to characterize a novel vitexin-producing endophytic fungus Fusarium solani G6 from Cajanus cajan, improve its capability for producing vitexin and evaluate its osteoblastic proliferation activity. A total of 153 endophytic fungi, classified into 6 genera, were isolated from C. cajan. Among them, only one strain, endophyte G6 identified as Fusarium solani, was found to produce vitexin. After the optimization of fermentation conditions, the highest vitexin yield (18.72 mg/L) for the strain was observed in PDB liquid medium containing 20.54 g/L of glucose and 8.90 g/L of ammonium sulfate, at an initial medium pH of 5.1 and at 28 °C for 6 days of cultivation. Moreover, the fungal vitexin exhibited notable osteoblastic proliferation stimulating activity. A novel vitexin-producing endophytic fungus F. solani G6 was characterized from C. cajan for the first time. The findings highlighted its potential use for large-scale production of vitexin and might have a promising use as therapeutic agent for osteoporosis.