Effects of Auxin and Phenobarbital on Morphogenesis and Production of Digitoxin in Digitalis Callus

Pieces of callus obtained from seedlings of Digitalis purpureawere grown on solid Murashige-Skoog's medium supplemented with1 mg liter^–1 BA and 0.1 mg liter^–1 IAA or NAA, withor without phenobarbital (40 mg liter^–1). The replacementof the natural auxin IAA by the synthetic auxin NAA increasedcallus growth and inhibited organogenesis, whereas the additionof phenobarbital had the opposite effect. Morphometric measurementsrevealed a high ratio of vacuole to cytoplasm (v/v) in calluscells. This ratio was affected by the different treatments inthe same way as the fresh weight. The activity of mitochondrialcytochrome P450scc (the enzyme that provides the precursor,pregnenolone, for the biosynthesis of cardenolide in foxgloveplants) was detected in the relevant fraction of callus grownunder all experimental conditions, and its activity was increasedby the addition of phenobarbital. The different treatments testedincreased the cardenolide content and quantifiable amounts ofdigitoxin were detected in all callus tissues. It is of specialinterest that phenobarbital added to the culture medium increasedthe accumulation of digitoxin. The mechanism affecting the developmentand production of cardenolide in callus tissues of D. purpureaby phenobarbital and the replacement of IAA by NAA is discussed. (Received July 18, 1994; Accepted December 14, 1994)     

Localization and synthesis of alpha-fetoprotein in chorioallantoic membrane from chick embryo.

Alpha-fetoprotein (AFP) is a major globulin of the embryonic serum of mammals, birds, and other vertebrates. It is synthesized chiefly by the liver and/or the yolk sac. The aim of this work was to confirm the occurrence of AFP in the chorioallantoic membrane (CAM) from 14-day chick embryo. AFP had previously been detected by immunoelectrophoresis in CAM extracts under the suspicion that it could be a mere artifact resulting from blood contamination. The immunohistochemical study of the CAM carried out for this purpose revealed the protein to be solely located in the mesodermal layer. The joint use of organ culture and immunoperoxidase techniques has enabled us to find evidence for the synthesis of AFP in the cells of this layer. These results confirm the occurrence of such a significant carrier globulin to embryonic development in one more tissue that can be added to the short list of AFP-producing tissues.     

Influence of nano‐zinc oxide on tropane alkaloid production,h6h gene transcription and antioxidant enzyme activity in Hyoscyamus reticulatus L. hairy roots

The use of nanotechnology and biotechnology to improve the production of plant bioactive compounds is growing. Hyoscyamus reticulatus L. is a major source of tropane alkaloids with a wide therapeutic use, including treatment of Parkinson's disease and to calm schizoid patients. In the present study, hairy roots were obtained from two‐week‐old cotyledon explants of H. reticulatus L. using the A7 strain of Agrobacterium rhizogenes. The effects of different concentrations of the signaling molecule nano‐zinc oxide (ZnO) (0, 50, 100 and 200 mg/L), with three exposure times (24, 48 and 72 h), on the growth rate, antioxidant enzyme activity, total phenol contents (TPC), tropane alkaloid contents and hyoscyamine‐6‐beta‐hydroxylase (h6h) gene expression levels were investigated. Growth curve analysis revealed a decrease in fresh and dry weight of ZnO‐treated hairy roots compared to the control. ANOVA results showed that the antioxidant activity of the enzymes catalase, guaiacol peroxidase and ascorbate peroxidase was significantly higher in the ZnO‐treated hairy roots than in the control, as was the TPC. The highest levels of hyoscyamine (37%) and scopolamine (37.63%) were obtained in hairy roots treated with 100 mg/L of ZnO after 48 and 72 h, respectively. Semi‐quantitative RT‐PCR analysis revealed the highest h6h gene expression was in hairy roots treated with 100 mg/L of ZnO after 24 h. It can be concluded that ZnO is as an effective elicitor of tropane alkaloids such as hyoscyamine and scopolamine due to its enhancing effect on expression levels of the biosynthetic h6h gene.     

Salicylic acid improves podophyllotoxin production in cell cultures of Linum album by increasing the expression of genes related with its biosynthesis

Treatment of Linum album cell cultures with 10 μM salicylic acid (SA) for 3 days improved podophyllotoxin (PTOX) production up to 333 μg/g dry weight (DW): over three times that of the control cultures. qPCR analyses showed that in SA-treated cells, the expression of the genes coding for phenylalanine ammonia-lyase (PAL), cinnamoyl-CoA reductase (CCR) and cinnamyl-alcohol dehydrogenase (CAD), all involved in the first steps of PTOX biosynthesis, also increased reaching a peak 8–12 h after the treatment. Expression of the pinoresinol-lariciresinol reductase gene (PLR), which is involved in one of the last biosynthetic steps, was not affected by SA. The selective action of SA on these genes can be applied to control the biotechnological production of this anticancer agent.     

Dendritic cells take up and present antigens from viable and apoptotic polymorphonuclear leukocytes

Dendritic cells (DC) are endowed with the ability to cross-present antigens from other cell types to cognate T cells. DC are poised to meet polymorphonuclear leukocytes (PMNs) as a result of being co-attracted by interleukin-8 (IL-8), for instance as produced by tumor cells or infected tissue. Human monocyte-derived and mouse bone marrow-derived DC can readily internalize viable or UV-irradiated PMNs. Such internalization was abrogated at 4°C and partly inhibited by anti-CD18 mAb. In mice, DC which had internalized PMNs containing electroporated ovalbumin (OVA) protein, were able to cross-present the antigen to CD8 (OT-1) and CD4 (OT-2) TCR-transgenic T cells. Moreover, in humans, tumor cell debris is internalized by PMNs and the tumor-cell material can be subsequently taken up from the immunomagnetically re-isolated PMNs by DC. Importantly, if human neutrophils had endocytosed bacteria, they were able to trigger the maturation program of the DC. Moreover, when mouse PMNs with E. coli in their interior are co-injected in the foot pad with DC, many DC loaded with fluorescent material from the PMNs reach draining lymph nodes. Using CT26 (H-2(d)) mouse tumor cells, it was observed that if tumor cells are intracellularly loaded with OVA protein and UV-irradiated, they become phagocytic prey of H-2(d) PMNs. If such PMNs, that cannot present antigens to OT-1 T cells, are immunomagnetically re-isolated and phagocytosed by H-2(b) DC, such DC productively cross-present OVA antigen determinants to OT-1 T cells. Cross-presentation to adoptively transferred OT-1 lymphocytes at draining lymph nodes also take place when OVA-loaded PMNs (H-2(d)) are coinjected in the footpad of mice with autologous DC (H-2(b)). In summary, our results indicate that antigens phagocytosed by short-lived PMNs can be in turn internalized and productively cross-presented by DC.     

In vitro micropropagation of Ruscus aculeatus

We have developed three protocols for the rapid micropropagation of Ruscus aculeatus. The primary explants utilised were immature embryos, aerial buds excised from rhizomes and shoot buds regenerated from organogenic calli. In order to increase the plant regeneration from the primary explants, we used organogenic calli from cladode, stem and rhizome segments. We tested more than 20 culture media for callus induction and shoot regeneration and the best results were obtained when rhizome segments were cultured on Murashige and Skoog medium supplemented with 0.5 mg dm⁻³ 2,4-dichlorophenoxyacetic acid and 1 mg dm⁻³ kinetin.     

Effect of auxin concentration and growth phase on the plasma membrane H-ATPase of tobacco calli

The activity of plasma membrane H⁺-ATPase increases up to 3 fold during the growth of tobacco calli for 6 weeks. In medium with optimal auxin this activity is always greater than in medium with suboptimal hormone. The amount of H⁺-ATPase measured with specific antibody only experiences small changes under the same conditions. Therefore, auxin level and growth phase mostly influence the molecular activity of the enzyme and not its amount. Despite the increase in H⁺-ATPase activity, there is a decrease in K⁺ content and ths decrease is greater in medium with suboptimal auxin. Apparently, there is a progressive deenergization of the plasma membrane which is only partially compensated by an auxin-dependent increase in activity of plasma membrane H⁺-ATPase.     

The Factor Inhibiting HIF Asparaginyl Hydroxylase Regulates Oxidative Metabolism and Accelerates Metabolic Adaptation to Hypoxia

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Enhanced h6h transcript level,antioxidant activity and tropane alkaloid production in Hyoscyamus reticulatus L. hairy roots elicited by acetylsalicylic acid

Hyoscyamine (Hyos) and scopolamine (SCP) are drugs widely used as antimuscarinic to treat diseases such as Parkinson’s or to calm schizoid patients. In this study, with the aim of enhancing tropane alkaloid production in H. reticulatus hairy root cultures, the effects of the signalling molecule acetylsalicylic acid (ASA) were investigated at different concentrations (0, 0.01, 0.1 and 1 mM) and inoculation times (24 and 48 h). As well as reducing biomass production, ASA treatment significantly enhanced the activity of catalase, guaiacol peroxidase and ascorbate peroxidase (p < 0.01), which was highest at 48 h of exposure to 1 mM of ASA. The highest accumulation of Hyos and SCP (1.6- and 3.5-fold more than in the control, respectively) was obtained at 24 h of exposure to 0.1 mM ASA. Additionally, semi-quantitative RT-PCR analysis showed an increased expression of the hyoscyamine-6-beta-hydroxylase (h6h) gene, involved in the last Hyos and SCP biosynthetic step, which correlated with the enhanced level of Hyos and SCP production under ASA elicitation. Our findings suggest that ASA, by stimulating the expression of key biosynthetic genes and enzymes, can be applied to increase commercial tropane alkaloid production in a H. reticulatus hairy root system.     

Podophyllotoxin: Current approaches to its biotechnological production and future challenges

Many plant‐derived agents are being used to treat cancer, including taxol, vinblastine, vincristine, or camptothecin and podophyllotoxin derivatives, among others. Plant biotechnology can provide a new tool for the production of anticancer agents but in spite of considerable efforts to produce vinblastine and vincristine in cell cultures and knowledge of the biosynthetic pathway of Catharanthus roseus alkaloids, the biotechnological production of taxol has only been achieved at an industrial level by companies such as Phyton Biotech and Cytoclonal Pharmaceutics. Podophyllotoxin was isolated as the active antitumor agent from the roots of Podophyllum species and more recently from the genus Linum and others. Etoposide, teniposide, and etophos are semi‐synthetic derivatives of podophyllotoxin and are used in the treatment of cancer. Biotechnological approaches, including the use of cell cultures, biotransformation, or metabolic engineering techniques to manipulate the biosynthetic pathway, represent an alternative for the production of podophyllotoxin and are discussed in this review.