Ergot alkaloids (EAs) are secondary metabolites produced by ergot fungi (e.g., Claviceps purpurea), which are parasites of Gramineae grasses. EAs and their analogs are used to treat migraine, postpartum uterine bleedi...Ergot alkaloids (EAs) are secondary metabolites produced by ergot fungi (e.g., Claviceps purpurea), which are parasites of Gramineae grasses. EAs and their analogs are used to treat migraine, postpartum uterine bleeding, and Parkinson's syndrome. Recent studies have reported additional new bioactive activities of EAs and their analogs, making them essential compounds for drug development, drug repositioning, and clinical applications. EAs are produced industrially by field cultivation of ergot or liquid fermentation in the mycelial phase, but there are few published studies of the production of EAs by cereal culture and thus this approach is poorly understood. This study searched for Claviceps strains that produce EAs cultured artificially in the mycelial phase, then the selected strains were cultured on cereal media (white rice, brown rice, and rye) to examine their ability to produce EAs on each medium. C. purpurea var. agropyri produced the Clavine-type EAs pyroclavine (1), festuclavine (2), and agroclavine (3) in the mycelial phase. When cultured with white rice, brown rice, or rye, C. purpurea var. agropyri produced 1 - 3 on all cereal media. The total amount of 1 - 3 in each cereal medium (150 g of cereal per Roux flask) was 2220.5 ± 564.1 μg for white rice, 920.0 ± 463.6 μg for brown rice, and 595.4 ± 52.1 μg for rye. The white rice medium supported the highest production of 1 - 3, with the total amount of EAs (150 g of white rice per Roux flask) being about 34 times higher than that in the T25 liquid medium (190 mL per 1 L Erlenmeyer flask) (equivalent amount per flask).展开更多
We examined the production of fungal metabolites as biological responses to 120 crude drugs by culturing the filamentous fungus Aspergillus fumigatus CBS101355 with crude drugs and analyzing the culture extracts by HP...We examined the production of fungal metabolites as biological responses to 120 crude drugs by culturing the filamentous fungus Aspergillus fumigatus CBS101355 with crude drugs and analyzing the culture extracts by HPLC. Nine crude drug extracts [Kyokatsu (Notopterygium), Kyonin (apricot kernel), Kujin (Sophora root), Goboshi (Burdock fruit), Goma (sesame), Shokyo (ginger), Shin’i (magnolia flower), Togashi (Benincasa seed), and Bukuryo (Poria sclerotium)] induced the production of trypacidin, which was not produced by culturing in potato dextrose broth without crude drugs.展开更多
The genus Claviceps (Clavicipitaceae) is noted for producing ergot alkaloids that cause ergotism. Claviceps yanagawaensis, a parasite of Zoysia japonica (family: Poaceae), has been isolated in Japan. Bioactivity scree...The genus Claviceps (Clavicipitaceae) is noted for producing ergot alkaloids that cause ergotism. Claviceps yanagawaensis, a parasite of Zoysia japonica (family: Poaceae), has been isolated in Japan. Bioactivity screening showed that a methanol extract from a rice culture of C. yanagawaensis was cytotoxic to cancer cells. In our search for active substances, the new secalonic acid analogues (-)-5-epi-F-7 (1) and ergochrysin C (2) and a new benzoic acid analogue, dimethyl bigutol (3), were isolated along with the known compounds 3,4-dihydroxy-5-(3-methyl-2-buten-1-yl)benzoic acid (4) and methyl veratrate (5). The structures of 1 - 3 were elucidated by NMR, MS, and circular dichroism spectroscopy. MTT assays of 1 - 5 using cancer cell lines (HepG2, HL60, HT29, PANC-1, and T98G) showed that 1 - 4 exhibited cytotoxicity against cancer cells.展开更多
文摘Ergot alkaloids (EAs) are secondary metabolites produced by ergot fungi (e.g., Claviceps purpurea), which are parasites of Gramineae grasses. EAs and their analogs are used to treat migraine, postpartum uterine bleeding, and Parkinson's syndrome. Recent studies have reported additional new bioactive activities of EAs and their analogs, making them essential compounds for drug development, drug repositioning, and clinical applications. EAs are produced industrially by field cultivation of ergot or liquid fermentation in the mycelial phase, but there are few published studies of the production of EAs by cereal culture and thus this approach is poorly understood. This study searched for Claviceps strains that produce EAs cultured artificially in the mycelial phase, then the selected strains were cultured on cereal media (white rice, brown rice, and rye) to examine their ability to produce EAs on each medium. C. purpurea var. agropyri produced the Clavine-type EAs pyroclavine (1), festuclavine (2), and agroclavine (3) in the mycelial phase. When cultured with white rice, brown rice, or rye, C. purpurea var. agropyri produced 1 - 3 on all cereal media. The total amount of 1 - 3 in each cereal medium (150 g of cereal per Roux flask) was 2220.5 ± 564.1 μg for white rice, 920.0 ± 463.6 μg for brown rice, and 595.4 ± 52.1 μg for rye. The white rice medium supported the highest production of 1 - 3, with the total amount of EAs (150 g of white rice per Roux flask) being about 34 times higher than that in the T25 liquid medium (190 mL per 1 L Erlenmeyer flask) (equivalent amount per flask).
文摘We examined the production of fungal metabolites as biological responses to 120 crude drugs by culturing the filamentous fungus Aspergillus fumigatus CBS101355 with crude drugs and analyzing the culture extracts by HPLC. Nine crude drug extracts [Kyokatsu (Notopterygium), Kyonin (apricot kernel), Kujin (Sophora root), Goboshi (Burdock fruit), Goma (sesame), Shokyo (ginger), Shin’i (magnolia flower), Togashi (Benincasa seed), and Bukuryo (Poria sclerotium)] induced the production of trypacidin, which was not produced by culturing in potato dextrose broth without crude drugs.
文摘The genus Claviceps (Clavicipitaceae) is noted for producing ergot alkaloids that cause ergotism. Claviceps yanagawaensis, a parasite of Zoysia japonica (family: Poaceae), has been isolated in Japan. Bioactivity screening showed that a methanol extract from a rice culture of C. yanagawaensis was cytotoxic to cancer cells. In our search for active substances, the new secalonic acid analogues (-)-5-epi-F-7 (1) and ergochrysin C (2) and a new benzoic acid analogue, dimethyl bigutol (3), were isolated along with the known compounds 3,4-dihydroxy-5-(3-methyl-2-buten-1-yl)benzoic acid (4) and methyl veratrate (5). The structures of 1 - 3 were elucidated by NMR, MS, and circular dichroism spectroscopy. MTT assays of 1 - 5 using cancer cell lines (HepG2, HL60, HT29, PANC-1, and T98G) showed that 1 - 4 exhibited cytotoxicity against cancer cells.
