Activation of anthraquinone biosynthesis in long-cultured callus culture of Rubia cordifolia transformed with the rolA plant oncogene.

The RolA protein belongs to the RolB class of plant T-DNA oncogenes, and shares structural similarity with the papilloma virus E2 DNA-binding domain. It has potentially as an inducer of plant secondary metabolism, although its role in biotechnology has yet to be realised. In this investigation, a Rubia cordifolia callus culture transformed with the rolA plant oncogene for more than 10 years was analysed. Expression of the rolA gene in the callus line was stable during long-term cultivation, and growth parameters were both elevated and stable, exceeding those of the non-transformed control culture. The rolA-transformed calli not only demonstrated remarkably stable growth, but also the ability to increase the yield of anthraquinones (AQs) in long-term cultivation. After ten years of cultivating rolA callus lines, we observed an activation of AQ biosynthesis from 200 mg/l to 874 mg/l. The increase was mainly due to activation of ruberitrinic acid biosynthesis. The expression of key AQ biosynthesis genes was strongly activated in rolA-transgenic calli. We compared the effects of the rolA gene with those of the rolB gene, which was previously considered the most potent inducer of secondary metabolism, and showed that rolA was more productive under conditions of long-term cultivation.

Activation of P-450-Dependent Monooxygenases Modulates the Diuretic Effect of Histochrome in Rats.

We studied the role of the liver monooxygenase system in pharmacological activity of histochrome, a pharmaceutical form of echinochrome A. In experiments on rats, benzonal, an inductor of the monooxygenase system of phenobarbytal type, significantly potentiated the diuretic effect of histochrome. Benzonal withdrawal was followed by a natriuretic reaction. In view of the known inverse relation between the biological effect of the drug and the rate of its metabolism, our findings suggest that the effects of echinochrome A on some kidney excretory function parameters are produced not by native agent, but one of its metabolites.

Evaluation of effects of histochrome and mexidol on structural and functional characteristics of the brain in senescence-accelerated OXYS rats by magnetic resonance imaging.

The effects of histochrome and mexidol on the morphology and function of the brain and behavior were studied in senescence-accelerated OXYS and Wistar rats. MRI showed that signs of neurodegenerative changes were present in OXYS rats at the age of 3 months and were pronounced at the age of 12 months. Histochrome (1 mg/kg, 5 days) more effectively than mexidol (4 mg/kg, 7 days) reduced anxiety and increased exploratory activity of 1-year-old OXYS rats. Both drugs improved the morphology and function of the brain. Their effects consisting in correction of diffuse changes in the white matter and reduction of edema were comparable; in addition, histochrome reduced the intensity of demyelinization processes.

Effects of histochrom and emoxypin on biophysical properties of electroexitable cells.

Comparative investigation of effects of antioxidant agents histochrom and emoxypin on biophysical characteristics of isolated neurons from shell Lymnaea stagnalis under normal conditions and during oxidative stress was performed. Differently directed effects of these compounds on resting potential and transmembrane ion currents of neural cells under normal conditions were detected. Histochrom provides hyperpolarizing and emoxypin--depolarizing effect on neuronal membrane potential. Under conditions of oxidative stress both products possess antioxidant action. Obtained data allows coming closer to understanding of cellular-molecular mechanisms of protective action of compounds.

Antithrombogenic and antiplatelet activities of extract from Maackia amyrensis wood.

Antithrombogenic and antiplatelet effects of a new drug, containing isoflavonoids (extract from the wood of Maackia amyrensis, a Far Eastern plant), were studied. A course (200 mg/kg intragastrically during 14 days) of Maackia amyrensis extract prevented intravascular clotting, initiated by application of 10% iron chloride solution on the vessel. The drug increased antiaggregant activity of the vascular wall and potentiated endothelium-dependent vasodilatation in ovariectomied rats. The reference drug ethinylestradiol (25 mug/kg intragastrically during 14 days) potentiated the antiaggregant effect of the endothelium, but was inferior to Maackia amyrensis extract in the capacity to induce endothelium-dependent vasodilatation in ovariectomied rats.

Effects of Ca(2+) channel blockers and protein kinase/phosphatase inhibitors on growth and anthraquinone production in Rubia cordifolia callus cultures transformed by the rolB and rolC genes.

The transformation of Rubia cordifolia L. cells by the 35S- rolB and 35S- rolC genes of Agrobacterium rhizogenes caused a growth inhibition of the resulting cultures and an induction of the biosynthesis of anthraquinone-type phytoalexins. Inhibitor studies revealed a striking difference between the rolC- and rolB-gene-transformed cultures in their sensitivity to verapamil, an L-type Ca(2+) channel blocker. The rolC culture possessed a 2-fold lowered resistance to the inhibitor than the normal culture, while the rolB culture was 4-fold more resistant to the treatment. Additionally, growth of the rolC culture was totally inhibited when the culture was grown in Ca(2+)-free medium, whereas growth of the rolB culture was reduced by less than half. We interpreted these results as evidence for a lack of calcium homeostasis in both transgenic cultures. Anthraquinone (AQ) production was not inhibited in the normal or transformed cultures by the Ca(2+) channel blockers verapamil and LaCl(3), or by diphenylene iodonium, an inhibitor of NADPH oxidase, or by the protein kinase inhibitor staurosporine. These results indicate that the induction of AQ production in non-transgenic and transgenic cultures does not proceed through the activation of the common Ca(2+)-dependent NADPH oxidase pathway that mediates signal transduction between an elicitor-receptor complex via transcriptional activation of defense genes. Okadaic acid and cantharidin, inhibitors of protein phosphatases 1 and 2A, caused an increase in AQ production in transgenic cultures. Okadaic acid stimulated AQ accumulation in the non-transformed culture, whereas cantharidin had no effect. These results show that different phosphatases are involved in AQ synthesis in normal and transgenic cultures of R. cordifolia.

Increase in anthraquinone content in Rubia cordifolia cells transformed by rol genes does not involve activation of the NADPH oxidase signaling pathway.

It has been reported that rol plant oncogenes located in Ri-plasmids of Agrobacterium rhizogenes activated synthesis of secondary metabolites in the transformed plant cells. The activator mechanism is still unknown. In this work, we studied whether the NADPH oxidase-signaling pathway, which regulates the synthesis of defense metabolites in plants, is involved in the activator function of the rol genes. It was demonstrated that the transformation of Rubia cordifolia cells by the rolB and rolC genes caused an induction of biosynthesis of anthraquinone-type phytoalexins. Inhibition studies revealed a striking difference between the rolC and rolB transformed cultures in their sensitivity to Ca2+ channel blockers and calcium deficiency. The rolC culture displayed lowered resistance to the inhibitors compared to the non-transformed culture, while the rolB culture was more resistant to the treatment. The assumption was made that the oncogenic potential of rol genes is realized through the alteration of calcium balance in the plant cells. Anthraquinone production was not inhibited in the non-transformed and transformed cultures by Ca2+ channel blockers, as well as by diphenylene iodonium, an inhibitor of NADPH oxidase, and by the protein kinase inhibitor staurosporine. These results indicate that the induction of anthraquinone production in transgenic cultures does not involve the activation of Ca2+-dependent NADPH oxidase pathway.

Effect of salicylic acid, methyl jasmonate, ethephon and cantharidin on anthraquinone production by Rubia cordifolia callus cultures transformed with the rolB and rolC genes.

It has been suggested that the rol genes of Agrobacterium rhizogenes could play an essential role in the activation of secondary metabolite production in plant transformed cultures. This study investigated whether the content of anthraquinone phytoalexins was changed in callus cultures of Rubia cordifolia transgenic for the 35S-rolB and 35S-rolC genes in comparison with a non-transformed callus culture. The anthraquinone content was shown to be significantly increased in transgenic cultures, thus providing further evidence that the rol-gene transformation can be used for the activation of secondary metabolism in plant cells. Methyl jasmonate and salicylic acid strongly increased anthraquinone accumulation in both transgenic and non-transgenic R. cordifolia calluses, whereas ethephon did not. A treatment of the cultures by cantharidin, the protein phosphatase 2A inhibitor, resulted in massive induction of anthraquinone accumulation in the transgenic cultures only. We suggest the involvement of a cantharidin-sensitive protein phosphorylation mechanism in anthraquinone biosynthesis in transgenic cultures.

Shikonin production by p-fluorophenylalanine resistant cells of Lithospermum erythrorhizon.

Studies were conducted with a BK-39 callus culture of Lithospermum erythrorhizon, which produced seven shikonin derivatives (acetylshikonin, propionylshikonin, isobutyrylshikonin, beta,beta-dimethylacrylshikonin, isovalerylshikonin, beta-hydroxyisovalerylshikonin and alpha-methyl-n-butyrylshikonin). A selection of cell aggregates of BK-39 culture on a medium containing p-fluorophenylalanine (PFP) yields a cell line possessing a higher resistance to the inhibitor than the initial culture. Selected BK-39F cultures produced almost the same profile of shikonin naphthoquinones as the initial culture. The shikonin derivative content of PFP-resistant culture was approximately two times higher than that of the control, reaching 12.6% of DW cell biomass.