Cation co-tolerance phenomenon in cell cultures of Oryza sativa adapted to LiCl and NaCl

Cell lines of Oryza sativa L. (cv. Taipei-309) were adapted to 30 mM LiCl and 150 mM NaCl. Both adapted lines were considerably more tolerant than non adapted line when grown on 200, 250 and 300 mM NaCl and 30 mM LiCl stresses. The tolerance of LiCl-adapted line to NaCl (150 to 300 mM) and the tolerance of NaCl-adapted cells line to LiCl (30 mM) indicated that there was a cross-adaptation towards alkali metals (Na⁺ and Li⁺) not the Cl^–. Na⁺ and K⁺ contents of all lines which increased with increasing medium salinity but to a different degree. The increase in Na⁺ and K⁺ content in NaCl-adapted and non-adapted lines were comparable, while LiCl-adapted line accumulated significantly lower Na⁺and higher K⁺ content. Proline content of all lines increased with the increase in NaCl-stress but the magnitude of increase was much higher in the LiCl-adapted than other lines. The differential response of adapted lines to NaCl stress in accumulating proline and maintaining the ionic contents reveals that adapted lines have evolved different features of adaptation to cope with NaCl stress.     

Natural products and enzymes from plant cell cultures

Plants represent an unlimited source of natural products. Many of the recently detected phytochemicals exhibit remarkable bioactivities, ranging from anticancer activity, phosphodiesterase inhibition to cytotoxicity against HIV-infected cells. Cultivated plant cells produce at their unorganized, dedifferentiated stage secondary metabolites, but in very different amounts in so far as new compounds are concerned. In fact, more than 140 novel natural products are presently known from plant cell cultures, which also include new metabolites formed by biotransformation. The biotransformation capacity of suspended cells is described and recent high yielding transformations, like the formation of arbutin by hydroquinone-transformation withRauwolfia cells are discussed. As an example of alkaloid production by cell suspensions, the pattern of monoterpenoid indole alkaloids of the Indian medicinal plantRauwolfia serpentina Benth. is described and the so far 30 identified compounds are divided into eight groups which are biosynthetically closely related. Some of the key biosynthetic reactions leading to theRauwolfia alkaloids are discussed and an overview of the enzymes involved in the formation of the alkaloid ajmaline and proteins catalyzing side reactions of the ajmaline pathway are given.     

Programmed cell death in cell cultures

In plants most instances of programmed cell death (PCD) occur in a number of related, or neighbouring, cells in specific tissues. However, recent research with plant cell cultures has demonstrated that PCD can be induced in single cells. The uniformity, accessibility and reduced complexity of cell cultures make them ideal research tools to investigate the regulation of PCD in plants. PCD has now been induced in cell cultures from a wide range of species including many of the so-called model species. We will discuss the establishment of cell cultures, the fractionation of single cells and isolation of protoplasts, and consider the characteristic features of PCD in cultured cells. We will review the wide range of methods to induce cell death in cell cultures ranging from abiotic stress, absence of survival signals, manipulation of signal pathway intermediates, through the induction of defence-related PCD and developmentally induced cell death.     

Elicitor induction of furanocoumarin biosynthetic pathway in cell cultures ofRuta graveolens

Treatment with an autoclaved culture homogenate of the yeastRhodotorula rubra induces rapid accumulation of acridone epoxides, furoquinolines and furanocoumarins in cell cultures ofRuta graveolens (L). The increased accumulation is preceeded by an induction of enzymes of the biosynthetic pathways. In the case of furanocoumarins induction was shown for phenylalanine ammonia-lyase (PAL), 4-coumarate: CoA ligase (4-CL) and S-adenosyl-l-methionine: xanthotoxol O-methyltransferase (XOMT). For PAL and 4-CL time courses of induced activity showed an early maximum, 8–12 h after treatment, whereas XOMT was found to reach its maximum later, about 36–42 h after treatment. The elicitor dose-response curve showed saturation at an elicitor concentration of 1%. At any time during the whole culturing period cells responded to elicitiation but the maximum enzyme activities induced were lower at the late stages. Experiments with different suspension culture strains, a shoot teratoma culture and hydroponically grown sterile photomixotrophic plants were performed to assess the influence of differentiation on constitutive activities of these enzymes and their inducibility by elicitation. Constitutive furanocoumarin accumulation was positively correlated with the level of differentiation. Although induction of PAL, 4-CL and XOMT activity always accompanied induced furanocoumarin accumulation no absolute correlation existed between induced enzyme activities and the induced product level or relative product increase.Abbreviations 4-CL 4-coumarate:CoA ligase - COMT S-adenosyl-l-methionine:caffeic acid 3-O-methyltransferase - PAL phenylalanine:ammonia-lyase - XOMT S-adenosyl-l-methionine:xanthotoxol O-methyltransferase     

Ultrasonic cell separator as a cell retaining device for high density cultures of plant cell

A system of ultrasonic filter device consisted of an ultrasonic generator, ultrasonic cell separation chamber (resonator) and a guide column, which was developed for suspension cultures of a plant cell. The key operation parameters affecting the efficiency of separation of cells from medium fluid were found to be the voltage of ultrasonic generator, the convective flow rate, and the distance between transducer and reflector. In the high density cultures ofAloe saponaria (>17 g DCW/L), the ultrasonic filter was so efficient that the cell holding time in the separation chamber was 10-fold higher than the case without ultrasonic wave at a convective flow rate of 0.24 cm/min. Furthermore, in perfusion type of high cell density cultures, cell aggregates were observed to be densely held in the ultrasonic chamber by ultrasonic force overcoming both gravitational and drag forces by pump. The accumulated cells were finally overflowed after the holding capacity of the chamber was reached. Back pressure was applied periodically to the resonator to flush cells back to bioreactor. The ultrasonic cell separator could operate over 75 min at a convective flow rate of 0.1 cm/min and at a cell concentration of 17 g DCW/L.     

Alkaloid formation in cell suspension cultures of Tabernaemontana divaricata after feeding of tryptamine and loganin

A cell suspension culture of Tabernaemontana divaricata, that had lost alkaloid production, was still capable of producing a similar pattern of alkaloids as directly after its initiation. When fed with early precursors, such as tryptamine and loganin, 57% of the precursors was converted into indole alkaloids such as strictosidine, vallesamine, O-acetylvallesamine and voaphylline. Apparently most of the cell factory has remained stable during the many years of subculturing. Only an early step of the biosynthesis the flux seems to be diverted to other pathways.     

Sepecial symposium: In vitro plant recalcitrance in vitro plant recalcitrance: An introduction

Summary In vitro recalcitrance is the inability of plant cells, tissues and organs to respond to tissue culture manipulations. With respect to plant regeneration, recalcitrance can be a major limiting factor for the biotechnological exploitation of economically important plant species and it can also impair the wider application of in vitro conservation techniques. This first paper introduces a compilation of Symposium papers, collectively entitled “Do we understand in vitro plant recalcitrance?”, presented at the 1999 Congress of the Society for In Vitro Biology. The Symposium reviewed recalcitrance in the context of genetic predeterminism, molecular markers and gene expression patterns, whole and explant physiology, stress physiology, habituation, neoplastic progression and plant cancer. The symposium contributors present fundamental and applied investigative approaches which have the potential to enhance our current understanding of in vitro recalcitrance and to assist in overcoming the problems associated with nonresponsive plant cultures. This introductory paper presents the general concept of recalcitrance in relation to whole-plant and explant physiology and considers basic aspects of tissue culture manipulations in the context of recalcitrance problems.     

Plant cell factories as a source for anti-cancer lignans

The review places podophyllotoxin, a powerful anti-cancer material used in clinical treatment of small cell cancers, in focus. The economical synthesis of podophyllotoxin is not feasible and demand for this material outstrips supply. At present, Podophyllum hexandrum (Indian May apple) is the commercial source but it grows in an inhospitable region (the Himalayas) where it is collected from wild stands. Furthermore, the plant is now an endangered species. Alternative sources of podophyllotoxin are considered, e.g., the supply of podophyllotoxin and related lignans by establishing plant cell cultures that can be grown in fermentation vessels. Increase of product yields, by variation of medium and culture conditions or by varying the channelling of precursors into side-branches of the biosynthetic pathway by molecular approaches, are discussed.     

Production of biopesticide azadirachtin using plant cell and hairy root cultures

The extensive use of nondegradable chemical pesticides for pest management has developed serious environmental hazards. This has necessitated the urgent need to switch over to an alternative mode of biopesticide development for mass agriculture and field crop protection. Azadirachta indica A. Juss (commonly known as neem) houses a plethora of bioactive secondary metabolites with azadirachtin being the most active constituent explored in the sector of ecofriendly and biodegradable biopesticides characterized by low toxicity toward nontarget organisms. It has been reported that the highest content of azadirachtin and related limonoids is present in the seeds, available once in a year. Moreover, the inconsistent content and purity of the metabolites in whole plant makes it imperative to tap the potential of in vitro plant tissue culture applications, which would allow for several controlled manipulations for better yield and productivities. This review gives a summarized literature of the applied research and achievements in plant cell/hairy cultures of A. indica A. Juss mainly in context with the biopesticide azadirachtin and applications thereof.     

Accumulation of toxic metal ions on cell walls ofDatura innoxia suspension cell cultures

Summary Rapidly dividing cell suspension cultures derived fromDatura innoxia (Mill.) selectively remove certain toxic metal ions from nutrient and waste solutions. Many ions, including necessary micronutrients, bind tightly to different components of the primary cell wall. Cell viability is not required for metal chelation to the extracellular matrix, and biopolymers purified from these cultures can be used to selectively remove metal ions from waste streams. Binding of normally toxic metals to the primary cell wall significantly reduces their toxicity. Chemical and metal luminescence methods that generate information about metal binding and cell-wall components responsible for this are presented. The feasibility of using plant cells and their components for bioremediation is discussed. Presented in the Session-in-Depth Bioremediation through Biotechnological Means at the Congress on Cell and Tissue Culture, San Diego, CA, June 5–9, 1993.     

Production of ajmalicine and ajmaline in hairy root cultures of Rauvolfia micrantha Hook f., a rare and endemic medicinal plant

Hairy roots of Rauvolfia micrantha were induced from hypocotyl explants of 2–3 weeks old aseptic seedlings using Agrobacterium rhizogenes ATCC 15834. Hairy roots grown in half-strength Murashige & Skoog (MS) medium with 0.2 mg indole 3-butyric acid l^–1 and 0.1 mg -naphthaleneacetic acid l^–1 produced more ajmaline (0.01 mg g^–1 dry wt) and ajmalicine (0.006 mg g^–1 dry wt) than roots grown in auxin-free medium. Ajmaline (0.003 mg g^–1 dry wt) and ajmalicine (0.0007 mg g^–1 dry wt) were also produced in normal root cultures. This is the first report of production of ajmaline and ajmalicine in hairy root cultures of Rauvolfia micrantha.     

Design of bioreactors suitable for plant cell and tissue cultures

Plant cell suspension cultures and hairy roots are potential sources of secondary metabolites and recombinant proteins. In contrast to traditionally grown “whole wild plants” or “whole transgenic plants”, their production in bioreactors guarantees defined controlled process conditions and therefore minimizes or even prevents variations in product yield and quality, which simplifies process validation and product registration. Moreover, bioreactors and their configuration significantly affect cultivation results by accomplishing and controlling the optimum environment for effective cell growth and production of bioactive substances. This review highlights the main design criteria of the most widely used bioreactor types, both for plant cell suspension cultures and for hairy roots, and outlines suitable low-cost disposable bioreactors which have found increasing acceptance over the last 10 years. Plants for human health in the post-genome era, PSE congress 26.8.2007–29.8.2007, Helsinki.     

Somatic embryogenesis from cell suspension cultures in Carica candamarcensis

Cell suspension cultures of Carica candamarcensis derived from hypocotyl calli were tested concerning their in vitro embryogenic capacity to improve asexual propagation rates in this species. Somatic embryos developed in culture from cells in suspension or from microcalli. Responses were affected by nutrient media and phytohormones used. Best results were obtained by growing the cells in suspension in Nitsch and Nitsch medium containing naphthaleneacetic acid and then plating them upon the same medium containing benzyladenine, or combinations of both hormones.     

The expression of the 14D9 catalytic antibody in suspended cells of Nicotiana tabacum cultures increased by the addition of protein stabilizers and by transference from erlenmeyer flasks to a 2‐L bioreactor

The effect of two protein stabilizers (polyvinylpyrrolidone [PVP] and gelatine) on growth and 14D9 yield of Nicotiana tabacum cell suspension cultures (Ab‐KDEL and sec‐Ab) was analyzed. The addition of PVP at a concentration of 1.0 g L^?1 produced the highest total 14D9 yield (biomass + culture medium) in the Ab‐KDEL line (4.82% total soluble protein [TSP]). With the addition of gelatine, the highest total 14D9 yield (2.48% TSP) was attained in the Ab‐KDEL line at 5.0 g L^?1 gelatine. When the Ab‐KDEL suspended cells were cultured in a 2‐L bioreactor, the highest 14D9 yield was 8.1% TSP at a 5% w/v inoculum size, which was the best 14D9 yield so far obtained in the platforms tested (E. coli, N. tabacum leaves and seeds, N. tabacum hairy roots, and cell suspension cultures). © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 30:1185–1189, 2014     

Microbial hazards in plant tissue and cell cultures

Summary A wide range of microorganisms (filamentous fungi, yeasts, bacteria, viruses and viroids) and micro-arthropods (mites and thrips) have been identified as contaminants in plant tissue cultures. Contaminant may be introduced with the explant, during manipulations in the laboratory or by micro-arthropod vectors. Contaminants may express themselves immediately or can remain latent for long periods of time. This often makes it difficult to identify the source of contamination. Disinfection protocols have now been developed for a wide range of plant species including those infected with viruses/viroids or endophytic bacteria. They may include the selection of pathogen-free donor plants or donor plant treatments such as thermotherapy. Also microbiological quality assurance systems (e.g. Hazard Analysis Critical Control Point; HACCP procedures) have been adapted to the needs of commercial plant tissue culture laboratories. These are aimed at, preventing the introduction of pathogens, into tissue cultures at establishment and in the laboratory. In established in vitro cultures preventative strategies have proved to be essential, since it is extremely difficult to eliminate environmental bacterial and fungal contaminants using, antibiotics and fungicides. In many cases anti-microbial treatments only inhibit contaminants and low levels of contamination persist. In particular, the use of antibiotics against Gram-negative bacteria (including plant pathogenic bacteria and Agrobacterium tumefaciens vector systems used in genetic engineering) has been shown frequently to be extremely difficult or unsuccessful. Detection of latent contamination may involve the use of general and semi-selective microbial growth media or serological and PCR-based molecular techniques for specific pathogens. However, it is often difficult to detect low numbers of latent bacterial contaminants (e.g. levels present following antibiotic treatment or when acidified plant media are used). This poses a particular risk in the production of transgenic plants where the elimination or detection of Agrobacterium tumefaciens-based vector systems cannot be guaranteed with the currently available methodologies. Recent research has also shown that there is a risk of the transmission of human pathogens in plant tissue cultures.     

TGFβ1 induces growth arrest and apoptosis but not ciliated cell differentiation in rat tracheal epithelial cell cultures

Summary We are studying the regulation of ciliated cell differentiation using an in vitro model of tracheal regeneration. Previously, we reported that removal of growth stimulating compounds such as epidermal growth factor (EGF) and cholera toxin reduced DNA synthesis and cell number while increasing ciliated cell differentiation (Clark et al., 1995). This result suggested that the induction of growth arrest may stimulate terminal differentiation of airway epithelial cells into ciliated cells. Transforming growth factor βs (TGFβs) inhibit epithelial cell proliferation and have also been shown to stimulate epithelial cell differentiation. In this study, the effect of TGFβ₁ on growth and ciliated cell differentiation of rat tracheal epithelial (RTE) cells was examined. TGFβ₁ inhibited [³H]thymidine incorporation by RTE cells in a dose-dependent manner. A 40% inhibition was observed after a 24-h incubation with 10 pM TGFβ₁. Continuous treatment with TGFβ₁ (1–50 pM) also reduced cell number during the time when ciliogenesis occurs. This reduction resulted in part from a loss of cells through exfoliation, in addition to the inhibition of proliferation. The exfoliated cells exhibited several morphological features characteristic of apoptosis, including shrunken cells, condensed and fragmented nuclei, and intact organelles. In addition, electrophoretic analysis of genomic DNA analysis isolated from exfoliated cells demonstrated the presence of a nucleosomal ladder. However, in contrast to the removal of EGF, treatment with TGFβ₁ for 7 d did not increase ciliated cell differentiation. TGFβ1 is, therefore, capable of inhibiting proliferation and increasing apoptosis in RTE cells without stimulating ciliated cell differentiation.     

Somatic embryogenesis in cell cultures of birch (Betula pendula Roth.)

Somatic embryogenesis was induced in cell cultures of birch (Betula pendula Roth.) derived from juvenile tissue of seed embryos and from mature leaf tissue. Embryos were formed in liquid and on solidified medium containing 2,4-dichlorophenoxyacetic acid (2,4-D) and 6-furfurylaminopurine (kinetin). Sometimes somatic embryos formed only after transfer to medium devoid of growth regulators. The embryos germinated on hormone-free medium and were potted in soil and grown in the greenhouse.Finnish Forest Research InstituteUniversity of Helsinki, School of Pharmacy;     

Scopolamine and hyoscyamine production by hairy root cultures of Brugmansia candida: influence of calcium chloride, hemicellulase and theophylline

CaCl₂ (50 mM) and hemicellulase (0.5 U mg^–1) increased the intracellular accumulation (60–250%), release (60–200%) and production (45–200%) of hyoscyamine and scopolamine in hairy roots of Brugmansia candida. Theophylline (0.25 mM), alone or in combination with hemicellulase, was ineffective in increasing hyoscyamine and scopolamine production.     

Tracheary element differentiation in Zinnia mesophyll cell cultures

Mechanically isolated mesophyll cells of Zinnia elegans differentiate into tracheary elements (TEs) when cultured in a medium containing adequate auxin and cytokinin. Differentiation in this culture system is relatively synchronous, rapid (occuring within 3 days of cell isolation) and efficient (with up to 65% of the mesophyll cells differentiating into TEs), and does not require prior mitosis. The Zinnia system has been used to investigate (a) cytological and ultrastructural changes occurring during TE differentiation, such as the reorganization of microtubules controlling secondary wall deposition, (b) the influences of calcium and of various plant hormones and antihormones on TE differentiation, and (c) biochemical changes during differentiation, including those occurring during secondary wall deposition, lignification and autolysis. This review summarizes experiments in which the Zinnia system has served as a model for the study of TE differentiation.