The use of plant cell cultures for the production of podophyllotoxin and related lignans

Podophyllotoxin isolated from rhizomes of Podophyllum plants (Podophyllaceae) serves as precursor for the semi-synthesis of anticancer therapeutics. The plants are collected from the wild and are becoming threatened species due to overcollection. Suspension cultures of Linum album (Linaceae) accumulate podophyllotoxin as well and could therefore serve as an alternative source for this important aryltetralin lactone lignan. The culture characteristics of suspension cultures of Linum album are reported in the paper. The fast growth of the cell culture and a podophyllotoxin accumulation of about 0.2% of the cell dry weight would enable a podophyllotoxin production of ca. 28 mg in 11 days in one liter of suspension culture

Production of the new antimalarial drug artemisinin in shoot cultures of Artemisia annua L.

From aseptically grown Artemisia annua plantlets, shoot cultures were initiated. Using different concentrations of auxine, cytokinine and sucrose, a suitable culture medium was developed, with respect to the growth of the shoots and their artemisinin accumulation. Nitrate concentration and conductivity appeared to be suitable growth parameters. The artemisinin content was measured gas chromatographically. The shoot cultures were maintained in the developed standard medium. consisting of a half concentration of MS-salts with vitamins, 0.2 mg l-1 BAP, 0.05 mg l-1 NAA and 1% sucrose. The growth of the shoots and the artemisinin content remained stable for a longer period. They showed considerable photosynthetic activity and generally contained ca. 0.08% artemisinin on a dry weight basis. The highest artemisinin content found was 0.16% in the above mentioned standard medium, but also on the same medium with 0.5% sucrose. Attempts were made to further improve the artemisinin production by varying the medium composition through addition of gibberellic acid or casein hydrolysate; by omitting plant growth regulators; by precursor feeding, i.e. mevalonic acid, by influencing the biosynthesis routing through inhibition of the sterol synthesis by miconazole, naftifine or terbinafine; by changing gene expression with 5-azacytidine or colchicine; and by elicitation, using cellulase, chitosan, glutathione or nigeran. Enhanced artemisinin production was found with 10 mg l-1 gibberellic acid, 0.5 g l-1 casein hydrolysate, 10 mg l-1 or 20 mg l-1 naftifine. Relative increases of 154%, 169%, 140% and 120% were found, respectively. Other additions caused the growth to cease and the artemisinin contents to drop

Deoxypodophyllotoxin 6-hydroxylase, a cytochrome P450 monooxygenase from cell cultures of Linum flavum involved in the biosynthesis of cytotoxic lignans

Cell-suspension cultures of Linum flavum L. (Linaceae) synthesize and accumulate aryltetrallydronaphthalene lignans with 6-methoxypodophyllotoxin as the main component. The experimental data indicate that the biosynthesis of 6-methoxypodophyllotoxin occurs via deoxypodophyllotoxin, beta-peltatin, and beta-peltatin-A methyl ether. The enzyme catalyzing the introduction of the hydroxyl group in position 6 is deoxypodophyllotoxin 6-hydroxylase (DOP6H). The enzyme was shown to be a cytochrome P450-dependent monooxygenase by blue-light reversion of carbon monoxide inhibition and inhibition by cytochrome c. DOP6H is a membrane-bound microsomal enzyme with a pH optimum of 7.6 and a temperature optimum of 26 degreesC. Deoxypodophyllotoxin is specifically accepted with an apparent K-m of 20 mum and a saturation concentration of 200 muM; 4'-demethyldeoxypodophyllotoxin is the only other tested substrate accepted for hydroxylation. DOP6H predominantly accepts NADPH as electron donor; NADH can only sustain low hydroxylation activities. A synergistic effect of NADPH and NADH is not observed. The enzyme is saturated around 250 M NADPH; the apparent K-m for this substrate is 36 M.</p