Spiridon Kintzios

Ocimum sp. (Basil): Botany, Cultivation, Pharmaceutical Properties, and Biotechnology

ABSTRACT The present review focuses on the various Ocimum species, often referred to as the “king of the herbs.” The botany of more than 50 species of herbs and shrubs belonging to this genus is thoroughly reported, along with traditional uses and cultivation techniques. Since basil is a rich source of natural compounds, details on the several chemical constituents of essential oil, plant parts and derived food and medical products, such as monoterpenes, sesquiterpenes, phenylpropanoids, anthocyanins, and phenolic acids, as well as their effect on sensory qualities are included. Furthermore, particular emphasis is given to the application of biotechnology for the clonal micropropagation of basil lines with improved traits and the use of basil tissue culture for the derivation of valuable compounds, such as antioxidant phenolics and essential oil components.

Terrestrial plant-derived anticancer agents and plant species used in anticancer research

Cancer is a major cause of death and the number of new cases, as well as the number of individuals living with cancer, is expanding continuously. Due to the enormous propensity of plants that synthesize mixtures of structurally diverse bioactive compounds, the plant kingdom is potentially a very diverse source of chemical constituents with tumor cytotoxic activity. Despite the successful utilization of few phytochemicals, such as vincristine and taxol, into mainstream cancer chemotherapy, commercial plant-derived anticancer formulations represent only one-fourth of the total repertoire of the available treatment options. Though significant progress has been made towards the characterization of isolated compounds and their structure-related activities, the complex composition of plant extracts, along with the lack of reproducibility of activity and the synergy between different, even unidentified, components of an extract, prohibits the full utilization of plants in pharmaceutical research. In this review, the results of an extensive literature survey on the anticancer properties of terrestrial plants, covering a thirty-five-year-long span (1970–2005) are presented. A total of 187 plant species, belonging to 102 genera and 61 families have been identified as an active or promising source of phytochemicals with antitumor properties, corresponding to a 41 percent increase during the last five years. Among them, only 15 species (belonging to ten genera and nine families) have been utilized in cancer chemotherapy at a clinical level, whereas the rest of the identified species are either active against cancer cell lines or exhibit chemotherapeutic properties on tumor-bearing animals under experimental conditions. Phenylpropanoids are the most widely distributed compounds (18 families), followed by terpenoids (14 families), and alkaloids (13 families). Analytical, species-specific information on bioactive constituents and target cancers is provided. The outlook of phytochemistry-based cancer therapy is discussed, particularly in the perspective of identifying immunomodulatory anticancer agents with minimal toxicity on healthy tissues. Referees: Mikey Davey, University of Nottingham, School of Biological Sciences, University Park, Nottingham NG7 2RD, United Kingdom Athannasios Economou, Aristotle University of Thessaloniki, School of Agriculture, Dept. of Horticulture, University Campus, 24124 Thessaloniki, Greece

Somatic embryogenesis from mature leaves of rose (Rosa sp.)

Abstract Several plant growth regulators (0.3–53.3 μm 6-benzyladenine, 2,4-dichlorophenoxyacetic acid, gibberellic acid, 3-indoleacetic acid, p-chlorophenoxyacetic acid, kinetin and α-naphthylacetic acid), alone or in combination, and culture conditions were tested for their capacity to induce somatic embryogenesis from mature leaf and stem explants of rose (Rosa sp.) of four commercial rose cultivars (Baccara, Mercedes, Ronto and Soraya). Somatic embryos were only induced from mature leaf explants derived from Soraya on Murashige and Skoog (MS) medium supplemented with 53.5 μmp-chlorophenoxyacetic acid and 4.6 μm kinetin, although satisfactory callus induction rates were obtained from all cultivars. After subculturing on the same medium, embryos at various developmental stages (globular, heart and torpedo shaped) were transferred for maturation onto a MS medium supplemented with 5.2 μm 6-benzyladenine and 5.7 μm 3-indoleacetic acid. Germination of mature embryos took place after subculturing them onto medium of the same composition. Plantlets regenerated from embryos and bearing three to four leaves were transferred to a greenhouse.

Somatic embryogenesis and in vitro rosmarinic acid accumulation in Salvia officinalis and S. fruticosa leaf callus cultures

Abstract The effect of explant age, plant growth regulators and culture conditions on somatic embryogenesis and rosmarinic acid production from leaf explants of Salvia officinalis and S. fruticosa plants collected in Greece was investigated. Embryogenic callus with numerous spherical somatic embryos could be induced on explants derived from both species and cultured for 3 weeks on a Murashige and Skoog (MS) medium supplemented with 1.8–18 μm 2,4-dichlorophenoxyacetic acid (2,4-D) and kinetin (Kin) or 10.5–21 μm 1-naphthalenacetic acid and 6-benzyladenine. Only explants from young plants (with six to eight leaves) responded to the culture treatments and, in general, low light intensities (50 μmol m–2 s–1) favoured callus formation and induction of somatic embryos. Somatic embryos were further developed on the same medium. Heart- and torpedo-shaped embryos (1–2 mm long) were subcultured on a growth-regulator-free MS medium for maturation. Maximum rosmarinic acid accumulation in S. officinalis and S. fruticosa callus cultured on 4.5 μm 2,4-D and 4.5 μm Kin was 25.9 and 29.0 g/l, respectively.

Effect of vitamins and inorganic micronutrients on callus growth and somatic embryogenesis from leaves of chilli pepper

The effect of different vitamins and inorganic micronutrients on callus growth and the induction and proliferation of somatic embryos from young mature, fully expanded leaves of chilli pepper (Capsicum annuum L.) was investigated. Explants were cultured on a solid Murashige and Skoog (MS) medium supplemented with 8% (w/v) sucrose, 12.9 μM 6-benzyladenine, 9 μM 2,4-dichlorophenoxyacetic acid and 0.5 mg l−1 thiamin.HCl in various combinations of eleven different vitamins. Alternatively, explants were cultured onto a solid medium containing MS macro- and micronutrients except for the salts of Mn, Zn, I, Cu and Co which were added at either the standard MS concentration or at a tenfold increased (Cu, Co) or decreased (Mn, Zn, I) concentration. The results indicated that somatic embryogenesis from pepper leaves is favoured by the addition of nicotinic acid to the culture medium and the increase of copper concentration (an average induction of 70.2 globular embryos/mm2 of explant surface, 9.2% higher than control), without reducing embryo maturation and germination.

Plants that fight cancer

PART I: WHAT DO WE KNOW ABOUT CANCER AND ITS THERAPY? Incidence and Causes Classification of Cancer Types Therapy Conventional Cancer Treatments Advanced Cancer Treatments Other Advanced Therapies Alternative Cancer Treatments From Source to Patient: Testing the Efficiency of a Candidate Anticancer Drug Preclinical Tests Phases of Clinical Trials Clinical Trial Protocols PART II: PLANTS AND CANCER Brief Overview of the General Organization of the Plant Cell The Chemical Constituents of the Plant Cell Primary Metabolites Secondary Metabolites Why Do Plant Compounds Have an Anticancer Activity? Chemical Groups of Natural Products with Anticancer Properties Alkaloids Polysaccharides Glycosides Lipids (Saponifiable) Flavonoids Proteins Annonaceous Acetogenins Terpenoids Nucleic Acids Lignans Phenols and Derivatives Aldehydes Unsaponifiable Lipids Unidentified Compounds Biotechnology and the Supply Issue PART III: TERRESTRIAL PLANT SPECIES WITH ANTICANCER ACTIVITY: A PRESENTATION Introduction: General Botanical Issues Species-specific Information The Guardian Angels: Plant Species Used in Contemporary Clinical Cancer Treatment Promising Candidates for the Future: Plant Species with a Laboratory-Proven Potential The Fable: Where Tradition Fails to Meet Reality Other Species with Documented Anticancer Activities PART IV: CYTOTOXIC METABOLITES FROM MARINE ALGAE Introduction Cytotoxic Metabolites from Chlorophyta Cytotoxic Metabolites from Rhodophyta Cytotoxic Metabolites from Phaeophyta Cytotoxic Metabolites from Microalgae Conclusions References APPENDIX: CHEMICAL STRUCTURES OF SELECTED COMPOUNDS References Chemical Index Species Index

Evaluation of the antioxidants activities of four Slovene medicinal plant species by traditional and novel biosensory assays

We investigated the antioxidant activity of methanolic and water extracts of Slovene accessions of four medicinal plant species (Salvia officinalis, Achillea millefolium, Origanum vulgare subsp. vulgare and Gentiana lutea). Their free radical-scavenging activity against the DPPH. free radical was studied with a spectrophotometric assay, while their biological activity with the help of a laboratory-made biosensor based on immobilized fibroblast cells (assay duration: 3 min). The observed antioxidant activity of the extracts from the four investigated medicinal plant species was dependent on both the solvent used for extraction and the assay method (conventional or biosensor-based). Independently from the assay method and the solvent used for extraction, the lowest scavenging activity was observed in root extracts of G. lutea. Treatment of the immobilized cells with the plant extracts resulted in an increase of the cell membrane potential (membrane hyperpolarization), possibly due to the reduction of membrane damage due to oxidation. The novel cell biosensor could be utilized as a rapid, high throughput tool for screening the antioxidant properties of plant-derived compounds.

Production of acidic xylo-oligosaccharides by a family 10 endoxylanase from Thermoascus aurantiacus and use as plant growth regulators

Neutral and acidic oligosaccharides were obtained from birchwood xylan by treatment with an endoxylanase, family 10 class, from Thermoascus aurantiacus. The main acidic xylooligosaccharide (aldotetrauronic acid) was separated from the hydrolysate by anion-exchange and size-exclusion chromatography and the primary structure was determined by 13C NMR spectroscopy. The aldotetrauronic yield was 15% (w/w) of the total solubilised sugars. The addition of purified aldoterauronic acid at 1.6–16 mg l−1 growth medium, induced callus and somatic embryogenesis in culture explants of common mallow (Malva silvestris L.) and cotton (Gosssypium hirsutum).

Induction of somatic embryogenesis and in vitro flowering from inflorescences of chamomile ( Chamomilla recutita L.)

Abstract A protocol has been developed for the induction of somatic embryogenesis from flower explants of chamomile (Chamomilla recutita L.). The effects of several plant growth regulators [α-naphthylacetic acid (NAA), 2,4-dichlorophenoxyacetic acid, 6-benzyladenine (BA) and kinetin (Kin), alone or in combination] and the flower type (disk or ray flower) were investigated. Both types of flowers responded to the callus and shoot induction treatments, but formation of globular somatic embryos took place only on disk-flower-derived explants after 2–4 weeks of culture on a Murashige and Skoog (MS) medium supplemented either with 8.87 μm BA and 1.07 μm NAA or with 26.8 μm NAA and 11.5 μm Kin. However, fully developed, cotyledonary-stage somatic embryos could be induced only on the NAA/Kin medium, 10 weeks after culture initiation. Germination of the embryos and plant regeneration took place after subculture for 4–5 weeks onto medium of the same composition. Plantlets regenerated from embryos flowered in vitro on a MS medium supplemented with 8.87 μm BA and 1.07 μm NAA. The significance of the results with respect to chamomile micropropagation and the utilization of wild populations in breeding programs is discussed.

Engineering of the membrane of fibroblast cells with virus-specific antibodies: A novel biosensor tool for virus detection

A novel concept for the assay of viral antigens is described. The methodological approach is based on a membrane-engineering process involving the electroinsertion of virus-specific antibodies in the membranes of fibroblast cells. As a representative example, Vero fibroblasts were engineered with antibodies against Cucumber mosaic virus (CMV) and used for the construction of an ultra-sensitive miniature cell biosensor system. The attachment of a homologous virus triggered specific changes to the cell membrane potential that were measured by appropriate microelectrodes, according to the principle of the bioelectric recognition assay (BERA). No change in the membrane potential was observed upon cell contact with the heterologous cucumber green mottle mosaic virus (CGMMV). Fluorescence microscopy observations showed that attachment of CMV particles to membrane-engineered cells was associated with membrane hyperpolarization and increased [Ca(2+)](cyt). In an additional field-based application, we were able to detect CMV-infected tobacco plants at an essentially 100% level of accuracy.