Cordycepin is the key active component of medicinal fungus Cordyceps militaris, and it shows multiple functional activities such as anti-tumor and anti-virus. Cordycepin was conventionally produced by liquid fermentation of C. militaris, but the long production cycle and the low productivity constrained its development and application. In this study, two key genes for cordycepin biosynthesis (ScCNS1 and ScCNS2) were introduced into Saccharomyces cerevisiae S288C, producing 67.32 mg/L cordycepin at 240 h. Analysis of gene expression profiles indicated that ZWF1, PRS4, ADE4, ScCNS1 and ScCNS2 which encode enzymes involved in pentose phosphate pathway, purine metabolism and cordycepin biosynthesis pathway, were significantly up-regulated in the late phage of fermentation. Optimization of fermentation medium determined that 50 g/L initial glucose followed by feeding, supplemented with 5 mmol/L Cu²⁺ and 1.0 g/L adenine were the best condition. Fed-batch fermentation using the engineered yeast in a 5 L stirred fermenter produced 137.27 mg/L cordycepin at 144 h, with a productivity up to 0.95 mg/(L·h) reached, which was 240% higher than that of the control.
Cordyceps ; Culture Media ; Deoxyadenosines ; Saccharomyces cerevisiae/genetics*

An efficient method to produce cordycepin by solid culture using Cordyceps militaris was investigated in this study. Firstly, the changes of cordycepin during various growing periods of solid culture using 5 strains of C. militaris were detected, the best strain and optimal growing period for cordycepin production were determined. Then, by experiments of quadratic rotation-orthogonal combination design and orthogonal design, the medium composition and growth conditions for high yield of cordycepin were optimized. With the optimized method to produce cordycepin, the content of cordycepin in the medium was increased to 0.60%, which was nearly 2 times higher than the highest yield reported.
Cordyceps ; drug effects ; growth & development ; metabolism ; Culture Media ; Deoxyadenosines ; biosynthesis ; Industrial Microbiology ; methods

OBJECTIVETo analysis the nutrient and effective ingredients of in Cordyceps militaris and make the best use of its medical value.

METHODAdenosine, cordycepin, polysaccharides, cordyceps acid, protein and fat in different parts of C. militaris were extracted, they are quantified by HPLC and other colorimetric analysis.

RESULTThe contents of polysaccharide was found to be 86.49 mg x g(-1) in C. militaris, 6.82 mg x g(-1) of adenosine in stroma, 13.28 mg x g(-1) of cordycepin and 44.07 mg x g(-1) of cordyceps acid in sclerolium.

CONCLUSIONIn different parts of C. militaris, the biosynthesis of effective ingredients is different. The total amount of effective ingredients is highest in C. militaris, the production of cordycepin and cordyceps acid is highest in sclerotium in comparison with other parts. Growth of C. militaris largely relies on its capability to utilize fat and protein from silkworm.

Adenosine ; analysis ; Animals ; Bombyx ; chemistry ; microbiology ; Cordyceps ; chemistry ; Deoxyadenosines ; analysis ; Fungal Proteins ; analysis ; Polysaccharides ; analysis

Cordycepin as the main active ingredient of Cordyceps militaris, a traditional medicinal fungus in China, has many physiological functions such as anti-cancer, anti-tumor and anti-virus activity. The most potential route for effective cordycepin production has been considered as liquid fermentation of C. militaris though with low productivity at present. Thus, it is urgent to apply both process engineering strategy and metabolic engineering strategy to enhance the productivity of cordycepin. In this review, the effects of medium components (i.e. the carbon/nitrogen source, precursor substances and metal ions) and operation factors (i.e. pH, dissolved oxygen and light) on cordycepin biosynthesis in liquid fermentation system are summarized. Besides, separation of cordycepin, the gene cluster involved and predicted biosynthesis pathways of cordycepin are also discussed, providing possible solutions of finally realizing efficient production of cordycepin.
Biotechnology ; trends ; China ; Cordyceps ; Deoxyadenosines ; biosynthesis ; genetics ; Fermentation ; Metabolic Engineering ; trends

AIMTo rapidly separate and determine the nucleosides from natural and cultured Cordyceps kyushuensis Kob., and to compare the content of cordycepin and adenosine in different parts of Cordyceps kyushuensis Kob., which are the main nucleoside active components in medicinal fungus belonging to Cordyceps (Fr.) Link.

METHODSThe nucleosides were separated and determined by the high performance capillary zone electrophoresis (CZE). Beckman P/ACE system MDQ apparatus equipped with a PDA detector and a uncoated fused-silica capillary (41 cm x 45 microns ID, 30 cm effective length) were used. The experimental conditions were as follows: the running buffer was borax solution (adjust to pH 9.4 with sodium hydroxide), applied voltage was 20 kV, operated temperature was 20 degrees C and the detector wavelength was 258 nm. The content of cordycepin and adenosine in the fruiting body, stroma and host worm of natural and cultured C. kyushuensis were respectively investigated and quantitatively analyzed.

RESULTSThere are at least 8 kinds of nucleoside or nitrogen base in Cordyceps kyushuensis Kob. The content of cordycepin which is a bio-active substance with anti-tumor activity in C. kyushuensis is significantly higher than that in C. sinensis and C. militaris, and furthermore the cordycepin in the cultured C. kyushuensis is notably higher than the natural one. Adenosine was mainly found from the stroma of C. kyushuensis, While the cordycepin content is high in the stroma of both natural and cultured C. kyushuensis as well as in the host worm of the cultured one.

CONCLUSIONThere are some differences about the nucleoside components between the natural and cultured C. kyushuensis and between the different parts of them. With a high cordycepin content, C. kyushuensis should have a considerable medicinal potential.

Adenosine ; analysis ; isolation & purification ; Animals ; Cordyceps ; chemistry ; classification ; Deoxyadenosines ; analysis ; isolation & purification ; Lepidoptera ; chemistry ; microbiology ; Nucleosides ; analysis ; isolation & purification

OBJECTIVEHPLC-ESI-MS to establish a method for simultaneous determination of adenosine and cordycepin in Cordyceps sinensis and C. militarris.

METHODHPLC-ESI-MS method. An electrospray ionization (ESI) interface and selective ion monitoring (SIM) mode were used. The analytical column was a 2.0 mm x 150 mm Shimadzu VP - ODS column and the mobile phase was water (94%), methanol (5%) and formic acid (1%). 2-Chloroadenosine was used as internal standard for this assay.

RESULTThe regression equations and coefficient were Y = 0.134 6X + 0.001 29 (r = 0.998 4) for adenosine, Y = 0.216 4X + 0.021 5 (r = 0.999 1) for cordycepin. The liner range was 0.5 approximately 124.5 microg x mL(-1) and 0.5 approximately 136.5 microg x mL(-1) for adenosine and cordycepin, respectively. The average recoveries of adenosine and cordycepin were 95.8% and 98.1%, respectively.

CONCLUSIONThis method is highly sensitive, fast and selective, which can be used for the determination of nucleosides in C. sinensis and its substitutes. This method can also be applied for the quality control of above herbs.

Adenosine ; analysis ; Animals ; Bombyx ; Chromatography, High Pressure Liquid ; Cordyceps ; chemistry ; classification ; Deoxyadenosines ; analysis ; Lepidoptera ; Quality Control ; Spectrometry, Mass, Electrospray Ionization

BACKGROUND: Chronic low grade inflammation is closely linked to type II diabetes, obesity, and atherosclerosis. Macrophages play a key role in the regulation of pro- or anti-inflammatory actions at the lesion sites of disease. Components of cordyceps militaris, cordycepin and adenosine, have been used for the modulation of inflammatory diseases. The effects of cordycepin in the modulation of macrophages have yet to be elucidated. We investigated the effects of cordycepin and adenosine on the morphological changes of macrophages under the inflammatory condition of LPS and an anti-inflammatory condition involving high concentrations of adenosine. METHODS: We confirmed the mRNA levels of the M1/M2 cytokine genes through RT-PCR and morphological change. RESULTS: LPS-activated macrophages returned to their inactivated original shape, i.e., they looked like naive macrophages, through the treatment with high concentrations of cordycepin (40 microgram/ml). LPS and adenosine activated macrophages also returned to their original inactivated shapes after cordycepin treatment; however, at relatively higher levels of cordycepin than adenosine. This change did not occur with relatively low concentrations of cordycepin. Adenosine down-regulated the gene expression of M1 cytokines (IL-1beta, TNF-alpha) and chemokines (CX3CR1, RANTES), as well as cordycepin. Additionally, M2 cytokines (IL-10, IL-1ra, TGF-beta) were up-regulated by both cordycepin and adenosine. CONCLUSION: Based on these observations, both cordycepin and adenosine regulated the phenotypic switch on macrophages and suggested that cordycepin and adenosine may potentially be used as immunomodulatory agents in the treatment of inflammatory disease.
Adenosine ; Atherosclerosis ; Chemokines ; Cordyceps ; Cytokines ; Deoxyadenosines ; Gene Expression ; Inflammation ; Interleukin 1 Receptor Antagonist Protein ; Macrophages ; Obesity ; RNA, Messenger

Antineoplastic Agents ; pharmacology ; Apoptosis ; drug effects ; Cell Cycle ; drug effects ; Cell Proliferation ; drug effects ; Deoxyadenosines ; pharmacology ; HeLa Cells ; Humans

Medicinal mushrooms, including Cordyceps militaris, have received attention in Korea because of their biological activities. In the fruiting body and in corpus of C. militaris, the total free amino acid content was 69.32 mg/g and 14.03 mg/g, respectively. In the fruiting body, the most abundant amino acids were lysine, glutamic acid, proline and threonine. The fruiting body was rich in unsaturated fatty acids, which comprised about 70% of the total fatty acids. The most abundant unsaturated acid was linoleic acid. There were differences in adenosine and cordycepin contents between the fruiting body and the corpus. The adenosine concentration was 0.18% in the fruiting body and 0.06% in the corpus, and the cordycepin concentration was 0.97% in the fruiting body and 0.36% in the corpus.
Adenosine ; Agaricales ; Amino Acids ; Cordyceps ; Deoxyadenosines ; Fatty Acids ; Fatty Acids, Unsaturated ; Fruit ; Glutamic Acid ; Korea ; Linoleic Acid ; Lysine ; Proline ; Threonine

The study is aimed to confirm the silencing efficiency of the vector in human hepatocellular liver carcinoma cell line (HepG2), and observe effects of AMPKgamma silencing on the AMPK stimulating activity and lipid synthesis of cordycepin (CCS), a natural product with known AMPK activating function. The downregulating efficacy of siRNAs on AMPKgamma expression was confirmed in our previous study. The double stranded shRNA Oligo was ligated to lentivirus vector and verified by sequencing. The lentiviral which can effectively inhibited protein expression levels of AMPKgamma was selected by Western blotting, and the regulation of CCS on protein expression of AMPKgamma and p-AMPK in AMPKgamma silence cells were detected by Western blotting analysis. The lipid accumulation in cells was observed by Oil-Red O stain and cells were collected for the estimation of cholesterol (TC), triglyceride (TG). The results showed that the lentiviral vector carrying a shRNA targeting the AMPKgamma gene was successfully constructed. Western blotting analysis confirmed that GR085 had the highest interfering efficiency. Treatment with CCS can significantly increase the levels of phospho-AMPK in normal cells, and the level of TC, TG was reduced, but in AMPKgamma silence cells the effects of CCS on AMPK activation and lipid synthesis were almost completely abolished without changing the expression levels of total AMPK or AMPKgamma protein. In conclusion, the AMPKgamma gene may be related to AMPK activation and intracellular lipids regulation by CCS.
AMP-Activated Protein Kinases ; genetics ; metabolism ; Cholesterol ; metabolism ; Deoxyadenosines ; pharmacology ; Genetic Vectors ; HEK293 Cells ; Humans ; Lentivirus ; genetics ; Phosphorylation ; RNA Interference ; RNA, Small Interfering ; genetics ; Triglycerides ; metabolism