E R El-Sayed1, A S Ahmed1, H K Abdelhakim2. 1. Plant Research Department, Nuclear Research Center, Atomic Energy Authority, Cairo, Egypt. 2. Biochemistry Lab, Chemistry Department, Faculty of Science, Cairo University, Giza, Egypt.
Abstract
AIMS: Different endophytic fungi were isolated and screened for their digoxin-producing ability. Strain improvement and different culture conditions were studied for more effective production of digoxin. METHODS AND RESULTS: Among the isolated fungi, an isolate produced digoxin in a concentration of 2·07 mg l-1 . The digoxin-producing fungal isolate was identified as Epicoccum nigrum Link according to the morphological features and phylogenetic analyses. The potentiality of the fungal strain for production enhancement of digoxin was performed by gamma radiation mutagenesis. Gamma irradiation dose of 1000 Gy intensified the digoxin yield by five-fold. Using this dose, a stable mutant strain with improved digoxin productivity was isolated and the stability for digoxin production was followed up across four successive generations. In the effort to increase digoxin magnitude, selection of the proper cultivation medium, addition of some elicitors to the most proper medium and several physical fermentation conditions were tested. Fermentation process carried out in malt extract autolysate medium (pH 6·5) supplemented by methyl jasmonate and inoculated with 2 ml of 6-day-old culture and incubated at 25°C for 10 days stimulated the highest production of digoxin to attain 50·14 mg l-1 . Moreover, cytotoxicity of digoxin separated from the fungal culture was tested against five different cancer cell lines. Based on the MTT assay, digoxin inhibited the proliferation of the five different cancer cell lines and the recorded 50% inhibitory concentration ranged from 10·76 to 35·14 μg ml-1 . CONCLUSIONS: This is the first report on the production and enhancement of digoxin using fungal fermentation as a new and alternate source with high productivity. SIGNIFICANCE AND IMPACT OF THE STUDY: These findings offer new and alternate sources with excellent biotechnological potential for digoxin production by fungal fermentation. Moreover, digoxin proved to be a promising anticancer agent whose anticancer potential should be assessed in prospective cancer therapy.
AIMS: Different endophytic fungi were isolated and screened for their digoxin-producing ability. Strain improvement and different culture conditions were studied for more effective production of digoxin. METHODS AND RESULTS: Among the isolated fungi, an isolate produced digoxin in a concentration of 2·07 mg l-1 . The digoxin-producing fungal isolate was identified as Epicoccum nigrum Link according to the morphological features and phylogenetic analyses. The potentiality of the fungal strain for production enhancement of digoxin was performed by gamma radiation mutagenesis. Gamma irradiation dose of 1000 Gy intensified the digoxin yield by five-fold. Using this dose, a stable mutant strain with improved digoxin productivity was isolated and the stability for digoxin production was followed up across four successive generations. In the effort to increase digoxin magnitude, selection of the proper cultivation medium, addition of some elicitors to the most proper medium and several physical fermentation conditions were tested. Fermentation process carried out in malt extract autolysate medium (pH 6·5) supplemented by methyl jasmonate and inoculated with 2 ml of 6-day-old culture and incubated at 25°C for 10 days stimulated the highest production of digoxin to attain 50·14 mg l-1 . Moreover, cytotoxicity of digoxin separated from the fungal culture was tested against five different cancer cell lines. Based on the MTT assay, digoxin inhibited the proliferation of the five different cancer cell lines and the recorded 50% inhibitory concentration ranged from 10·76 to 35·14 μg ml-1 . CONCLUSIONS: This is the first report on the production and enhancement of digoxin using fungal fermentation as a new and alternate source with high productivity. SIGNIFICANCE AND IMPACT OF THE STUDY: These findings offer new and alternate sources with excellent biotechnological potential for digoxin production by fungal fermentation. Moreover, digoxin proved to be a promising anticancer agent whose anticancer potential should be assessed in prospective cancer therapy.
Authors: Shaimaa A Mousa; El-Sayed R El-Sayed; Samar S Mohamed; Mohamed A Abo El-Seoud; Adel A Elmehlawy; Dalia A M Abdou Journal: Appl Microbiol Biotechnol Date: 2021-01-04 Impact factor: 4.813
Authors: Heba G Hussein; El-Sayed R El-Sayed; Nahed A Younis; Abd El Hamid A Hamdy; Saadia M Easa Journal: AMB Express Date: 2022-06-08 Impact factor: 4.126
Authors: El-Sayed R El-Sayed; Magdia A Hazaa; Magdy M Shebl; Mahmoud M Amer; Samar R Mahmoud; Abeer A Khattab Journal: AMB Express Date: 2022-04-19 Impact factor: 4.126
Authors: El-Sayed R El-Sayed; Shaimaa A Mousa; Dalia A M Abdou; Mohamed A Abo El-Seoud; Adel A Elmehlawy; Samar S Mohamed Journal: Saudi J Biol Sci Date: 2021-12-13 Impact factor: 4.052
Authors: Magdia A Hazaa; Magdy M Shebl; El-Sayed R El-Sayed; Samar R Mahmoud; Abeer A Khattab; Mahmoud M Amer Journal: AMB Express Date: 2022-09-16 Impact factor: 4.126
Authors: Amira G Zaki; El-Sayed R El-Sayed; M Abd Elkodous; Gharieb S El-Sayyad Journal: Appl Microbiol Biotechnol Date: 2020-04-13 Impact factor: 5.560