Production of monoclonal antibodies by tobacco hairy roots

Hairy roots of tobacco (Nicotiana tabacum) were used to produce full-length murine lgG(1) monoclonal antibody. The presence of heavy (gamma) and light (kappa) chains and fully assembled antibody was verified by Western blot analysis of root extracts. Antibody levels in the biomass and medium were quantified by ELISA based on detection of gamma-kappa complexes. Antibody produced by hairy roots was fully functional as demonstrated in bacterial aggregation assays which confirmed bivalent antigen-binding capacity. Eight antibody-producing hairy root clones retained their ability to produce mouse immunoglobulin over a period of 19 months after transformation with Agrobacterium rhizogenes. For hairy roots grown in Gamborg's B5 medium, the maximum level of assembled antibody after 21-day culture in shake flasks was 18 mg L(-1) or 1.8% total soluble protein; up to 14% of the antibody was secreted into the medium. Antibody production by transgenic hairy roots had a negligible effect on growth compared with hairy roots of wild-type tobacco. Antibody accumulation was growth associated with constant specific accumulation rate at the beginning of the culture; however, degradation of antibody was significant after 14 days and the amount of assembled antibody declined. Unlike hybridoma cultures, the time course of antibody accumulation by hairy roots showed a distinctive maximum very soon after the end of exponential growth. Total antibody levels were increased by addition of nitrate, polyvinylpyrrolidone, or gelatin to the medium. Polyvinylpyrrolidone and gelatin also markedly improved extracellular antibody concentrations; with these treatments, up to 43% of the antibody present was secreted into the medium. Antibody production was tested using hairy roots grown in an air-driven bioreactor. The intracellular antibody content after 30-day bioreactor culture was similar to that measured in shake flasks; however, the final extracellular antibody level was 1.7 times higher than the maximum measured in shake flasks. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 54: 401-415, 1997.     

Effect of bacitracin on growth and monoclonal antibody production by tobacco hairy roots and cell suspensions

Hairy roots and suspended cells of transformedNicotiana tabacum were used to produce full length murine IgG₁ monoclonal antibody. The maximum amount of antibody accumulated per g dry weight in the hairy root cultures was 6.5 times that in the suspension cultures. Up to 48% of the antibody in the suspension cultures was found extracellularly, while a maximum of only 17% was recovered from the hairy root medium. The amount of assembled antibody in the root and suspension cultures was significantly reduced by intracellular and/or extracellular antibody degradation soon after the end of the exponential growth phase. Bacitracin, a polypeptide antibiotic, has been shown in previous work to prevent degradation of peptides and hormones in plant and mammalian systems. Treatment of hairy roots and cell suspensions with 100 μg/mL bacitracin was not sufficient to prevent loss of antibody from the cultures, but improved the specific growth rates by up to 53%. At concentrations of 250 μg/mL and above, bacitracin had a toxic effect on hairy roots, which may limit the application of this peptide in plant tissue culture.     

Loss of secreted antibody from transgenic plant tissue cultures due to surface adsorption

The role of surface adsorption in the disappearance of secreted foreign proteins from the medium of transgenic plant cell and organ cultures was investigated. When mouse monoclonal IgG1 was added to sterile plant culture media in glass shake flasks, the antibody concentration declined rapidly demonstrating that antibody was labile in the plant culture environment even in the absence of biomass and proteases. Elution of bound antibody from the surfaces of the flasks indicated that adsorption had contributed to the observed loss of antibody from solution. Antibody retention in sterile plant culture media was improved significantly when protein-resistant polymer coatings were applied to the glass vessels containing the antibody solutions. Pluronic F127 applied at a concentration of 1 mg mL(-1) to a primary dimethyldichlorosilane layer on glass yielded the best results in sterile Murashige and Skoog medium. When this coating was used in shake flasks for culture of transgenic tobacco hairy roots, there was a significant improvement in the accumulation of secreted recombinant antibody in the medium consistent with a reduction in antibody adsorption. Medium antibody levels eventually declined, however, as medium protease concentrations rose rapidly towards the end of the culture period. This work demonstrates that surface adsorption reduces the medium antibody titre observed in transgenic plant tissue cultures.     

Transformed root cultures for biotechnology

This review is concerned with the application of hairy roots, i.e. plant roots formed from plant cells after transformation by Agrobacterium rhizogenes for the production of bioactive compounds. Transformed root cultures have been established from numerous species of dicotyledonous plants. The plants, as well as the main products accumulated in hairy root cultures derived from these plants, are listed in this paper. Data are presented on novel compounds, hitherto detected only in transformed roots but not occurring in the corresponding intact plants. The possible use of hairy root cultures for the over-production of secondary metabolites and biotransformation of chemicals is discussed. In order to enhance the productivity of hairy root cultures, various methods have been derived, and optimized procedures are proposed. They include selection of high-producing clones, elicitation, composition of growth media, culture conditions and genetic approach. Hairy roots usually store secondary metabolites in vacuoles inside the cells. Therefore, several methods have been used to increase the amount of products released into the medium. Unfortunately, no general procedure is known that works in all cases, and the excretion behaviour of hairy root cultures varies from one species to another and even within one species from one clone to another. Special attention is given to the cultivation methods and bioreactor systems for hairy root cultures. Hairy roots are cultivated usually in shake flasks; however, shake flask culture is not suitable for the complex optimization and continuous control of the culture conditions. In this paper, we are going to present bioreactors proposed for the cultivation of hairy roots under more or less controlled conditions. Modifications of typical bacterial bioreactors, i.e. stirred tanks, airlift loop reactors and other constructions, are presented. A very special type of bioreactor providing good conditions for loose root mass multiplication without oxygen or substrate limitations, is the mist bioreactor. Nowadays, it is practically impossible to select the one best bioreactor type for hairy root culture.     

Establishment of Gymnema sylvestre hairy root cultures for the production of gymnemic acid

Gymnema sylvestre is an important medicinal plant that bears bioactive compound namely gymnemic acid. In the present study, G. sylvestre was transformed by Agrobacterium rhizogenes. Seedling explants namely roots, stems, hypocotyls, cotyledonary nodal segments, cotyledons and young leaves were inoculated with A. rhizogenes strain KCTC 2703. Transformed (hairy) roots were induced from cotyledons and leaf explants. Six transgenic clones of hairy roots were established and confirmed by polymerase chain reaction (PCR) and RT-PCR using rolC specific primers. Hairy roots cultured using MS liquid medium supplemented with 3 % sucrose showed highest accumulation of biomass (97.63 g l^?1 FM and 10.92 g l^?1 DM) at 25 days, whereas highest accumulation of gymnemic acid content (11.30 mg g^?1 DM) was observed at 20 days. Nearly 9.4-fold increment of biomass was evident in suspension cultures at 25 days of culture and hairy root biomass produced in suspension cultures possessed 4.7-fold higher gymnemic acid content when compared with the untransformed control roots. MS-based liquid medium was superior for the growth of hairy roots and production of gymnemic acid compared with other culture media evaluated (B5, NN and N6), with MS-based liquid medium supplemented with 3 % sucrose was optimal for secondary metabolite production. The current results showed great potentiality of hairy root cultures for the production of gymnemic acid.     

Influence of medium constituents on enhancement of pigment production by batch culture of red beet hairy roots

For the enhancement of pigment production by red beet hairy roots, the effects of medium constituents (Murashige-Skoog (MS) medium) on hairy root cultures were investigated in flasks. In a series of cultures using media with diluted medium components, it was found that phosphate was a key nutrient involved in pigment accumulation in the hairy roots, and that higher pigment contents in the roots were obtained at lower phosphate concentrations (range of 0–2.5 mol/m³). In an 18 d batch culture using phosphate-free medium, the total amount of pigment production was 4.8 times that obtained in a control culture using normal MS medium with 1.25 mol/m³ phosphate.     

Root hairiness: effect on fluid flow and oxygen transfer in hairy root cultures

The effect of root hairiness on fluid flow and oxygen transfer in hairy root cultures was investigated using wild-type, transgenic and root-hair mutants of Arabidopsis thaliana. The root hair morphologies of the A. thaliana lines were hairless, short hairs, moderately hairy (wild-type) and excessively hairy, and these morphologies were maintained after transformation of seedlings with Agrobacterium rhizogenes. Filtration experiments were used to determine the permeability of packed beds of roots; permeability declined significantly with increasing root hairiness as well as with increasing biomass density. Hairy roots of wild-type A. thaliana grew fastest with a doubling time of 6.9 days, but the hairless roots exhibited the highest specific oxygen uptake rate. In experiments using a gradientless packed bed reactor with medium recirculation, the liquid velocity required to eliminate external mass transfer boundary layer effects increased with increasing root hairiness, reflecting the greater tendency towards liquid stagnation near the surface of roots covered with hairs. External critical oxygen tensions also increased with increasing root hairiness, ranging from 50% air saturation for hairless roots to ca. 150% air saturation for roots with excessive root hairs. These results are consistent with root hairs providing a significant additional resistance to oxygen transfer to the roots, indicating that very hairy roots are more likely than hairless roots to become oxygen-limited in culture. This investigation demonstrates that root hairiness is an important biological parameter affecting the performance of root cultures and suggests that control over root hair formation, either by use of genetically modified plant lines or manipulation of culture conditions, is desirable in large-scale hairy root systems.     

Continuous production of scopolamine by a culture of Duboisia leichhardtii hairy root clone in a bioreactor system

The scopolamine-releasing hairy root clone DL47-1 of Duboisia leichhardtii was cultured in an Amberlite XAD-2 column-combined bioreactor system for continuous production of scopolamine. The medium used was continuously exchanged during culture to maintain the electrical conductivity of the medium constant. After culturing the hairy roots in the system for 11 weeks, 0.5 g/l of scopolamine was obtained in the column. When the roots were cultures in the reactor system containing polyurethane foam or stainless-steel mesh to support the hairy roots, scopolamine recovery was increased. Thereafter, a two-stage culture, the first stage in the medium for hairy root growth and the second stage in the medium for scopolamine release, was carried out in this system by using a turbine-blade reactor with stainless-steel mesh as a support. Under these conditions, 1.3 g/l of scopolamine was recovered during 11 weeks of culture in the medium for scopolamine release. This bioreactor system seems applicable for the production of various plant metabolites by cultures of hairy roots. Correspondence to: T. Muranaka     

Production and secretion of recombinant thaumatin in tobacco hairy root cultures

Production of recombinant proteins in plant cell or organ cultures and their secretion into the plant cell culture medium simplify the purification procedure and increase protein yield. In this study, the sweet-tasting protein thaumatin I was expressed and successfully secreted from tobacco hairy root cultures. The presence of an ER signal peptide appears to be crucial for the secretion of thaumatin: without an ER signal peptide, no thaumatin was detectable in the spent medium, whereas inclusion of the ER signal peptide calreticulin fused to the N terminus of thaumatin led to the secretion of thaumatin into the spent medium of hairy root cultures at concentrations of up to 0.21 mg/L. Extracellular thaumatin levels reached a maximum after 30 days (stationary phase) and the subsequent decline was linked to the rapid increase of proteases in the medium. Significant amounts of thaumatin were trapped in the apoplastic space of the root cells. The addition of polyvinylpyrrolidone and sodium chloride into the culture medium led to an increase of extracellular thaumatin amounts up to 1.4 and 2.63 mg/L, respectively. Thaumatin production compares well with yields from other transgenic plants, so that tobacco hairy roots can be considered an alternative production platform of thaumatin.     

Effect of differentiation on the regulation of indole alkaloid production in Catharanthus roseus hairy roots

In vitro cultures of hairy root derived from Catharanthus roseus accumulate higher levels of indole alkaloids than cell suspension cultures. Hairy roots were interconverted to undifferentiated cells by manipulation of the culture medium. When the concentration of micronutrients in the culture medium was five times that of Phillips and Collins (1979) medium, cell suspensions formed from the hairy roots. The alkaloid content was five times lower in the cell suspensions than in the control, but upon regeneration of the roots the alkaloid content regained its original level. The formation of cell suspensions from hairy roots was also accompanied by a reduction in tryptophan decarboxylase and the strictosidine synthase activity to less than 5% and 30%, respectively. 3-Hydroxymethylglutaryl coenzyme A reductase activity was the same in the cell suspension and in the regenerated line. Received: 12 February 1998 / Revision received: 21 May 1998 / Accepted: 5 June 1998     

Effect of plant growth regulators on growth and biosynthesis of phenolic compounds in genetically transformed hairy roots of<Emphasis Type="Italic">Panax ginseng</Emphasis> C. A. Meyer

In this study, morphological alterations, biomass growth, and secondary metabolite production of genetically transformed hairy roots ofPanax ginseng C. A. Meyer, were evaluated after administration of plant growth regulators. The addition of benzylamino purine and kinetin to the culture media increased biomass formation and phenolic compound biosynthesis in the hairy roots. α-Naphthaleneacetic acid and indole-3-butyric acid inhibited hairy root growth, however, low concentrations of indole-3-acetic acid slightly increased hairy root growth. Low concentrations of 2,4-Dichlorophenoxyacetic acid profoundly inhibited growth of hairy roots. The addition of plant growth regulators, such as auxin, did not increase total phenolic compounds in hairy roots that did not contain gibberellic acid and cytokinins. Callus formation was induced in cultures suspended in liquid medium amended with benzylamino purine and kinetin. Hairy roots regenerated from these calluses exhibited an active growth pattern with extensive lateral branching in non-amended medium, similar to the growth pattern of the original hairy roots.     

Ri质粒转化的青蒿发根培养及青蒿素的生物合成

用发根农杆菌(Agrobacterium rhizogenes)转化药用植物青蒿(Artemisia annua L．)并建立了发根体外培养系统。Southern杂交、NPT Ⅱ酶的检测证明Ri质粒的T—DNA转移并整合到植物的核基因组上。在发根培养系统中,检测了青蒿的重要次生代谢物一青蒿素的含量,检测了不同理化因子对发根生长及青蒿素含量的影响。结果表明：光照(日光灯,12h光周期,20001x)有利于次生产物青蒿素的积累。培养基的pH值为5．4。蔗糖浓度为3％不仅促进发根的生长,而且促进青蒿素的积累。低浓度萘乙酸(NAA)对发根生长具有促进作用,但抑制青蒿素的合成。赤霉素GA,对发根的生长及次生产物的合成都具有促进作用,其最适浓度为4．8mg／L。     

人参发根的诱导及其适宜培养条件的研究

利用发根农杆菌A₄菌株在人参根外植体上直接诱导产生发根。在1/2MS固体培养基上建立起发根离体培养系,经连续多代的培养,发根仍保持旺盛生长状态。PCR扩增结果表明,发根农杆菌R_I质粒的rolC基因已在人参发根基因组中整合并得到表达。液体培养基中发根生长速度约为固体培养的2倍。经对发根中人参皂苷含量及比生长速率的测定,筛选出高产发根系R9923。利用HPLC法测定了R9923发根系中单体皂苷Rg1、Re、Rf、Rb1、Rc、Rb2和Rd的含量,人参总皂苷含量达15.2mg/g。确定1/2MS培养液（30g/L蔗糖）、摇床转速110r/min、每２周更换一次培养液、继代培养时间4周,为人参发根生长适宜条件。探讨了培养容积、发根初始接种量以及分级放大培养工艺对发根大规模生产过程中生物产量和皂苷含量的影响。     

Transgenic hairy roots. recent trends and applications

Agrobacterium rhizogenes causes hairy root disease in plants. The neoplastic roots produced by A. rhizogenes infection is characterized by high growth rate and genetic stability. These genetically transformed root cultures can produce higher levels of secondary metabolites or amounts comparable to that of intact plants. Hairy root cultures offer promise for production of valuable secondary metabolites in many plants. The main constraint for commercial exploitation of hairy root cultures is their scaling up, as there is a need for developing a specially designed bioreactor that permits the growth of interconnected tissues unevenly distributed throughout the vessel. Rheological characteristics of heterogeneous system should also be taken into consideration during mass scale culturing of hairy roots. Development of bioreactor models for hairy root cultures is still a recent phenomenon. It is also necessary to develop computer-aided models for different parameters such as oxygen consumption and excretion of product to the medium. Further, transformed roots are able to regenerate genetically stable plants as transgenics or clones. This property of rapid growth and high plantlet regeneration frequency allows clonal propagation of elite plants. In addition, the altered phenotype of hairy root regenerants (hairy root syndrome) is useful in plant breeding programs with plants of ornamental interest. In vitro transformation and regeneration from hairy roots facilitates application of biotechnology to tree species. The ability to manipulate trees at a cellular and molecular level shows great potential for clonal propagation and genetic improvement. Transgenic root system offers tremendous potential for introducing additional genes along with the Ri T-DNA genes for alteration of metabolic pathways and production of useful metabolites or compounds of interest. This article discusses various applications and perspectives of hairy root cultures and the recent progress achieved with respect to transformation of plants using A. rhizogenes.     

Effects of Agrobacterium rhizogenes strains and other parameters on production of isoflavonoids in hairy roots of Pueraria candollei Grah. ex Benth. var. candollei

Using several explants of Pueraria candollei Grah. ex Benth. var. candollei and two strains of Agrobacterium rhizogenes (ATCC 15834 and 43057), hairy root cultures were established. Including 100???M acetosyringone in the culture medium enhanced frequency of hairy root induction by up to 58?%. Subsequently, effects of inoculum size (IS) and temperature on growth and production of isoflavonoids in hairy roots were determined. Conditions of 1?%?IS and 32?°C promoted the highest accumulation of total isoflavonoid content, up to 31.0?±?22.6?mg/g dry weight (DW), in hairy roots. Moreover, culture of hairy roots at 32?°C decreased browning of hairy roots. Furthermore, this temperature promoted accumulation of the secondary metabolite daidzein; whereas, hairy root cultures at the stationary phase accumulated higher amounts of the isoflavonoid puerarin rather than daidzein.     

Investigation of liquid-solid hydrodynamic boundary layers and oxygen requirements in hairy root cultures.

Rates of oxygen uptake, growth and alkaloid production by hairy roots in submerged culture were investigated using a recirculation reactor allowing operation at high liquid velocities for removal of hydrodynamic boundary layers. Measurements were performed at dissolved oxygen tensions of 31-450% air saturation. Critical oxygen concentrations for Atropa belladonna hairy roots were above air saturation, viz. 100-125% air saturation for oxygen uptake and 150% air saturation for growth, demonstrating that these roots cultivated in reactors with air sparging are oxygen-limited. The critical oxygen tension for oxygen uptake by Solanum aviculare hairy roots was 75% air saturation. Both the specific oxygen uptake rate and specific growth rate of A. belladonna hairy roots were dependent on the mass (g dry weight) of roots present; even in the absence of boundary layers, growth did not remain exponential over the entire culture period. Cryo-scanning electron microscopy showed that hairy roots grown submerged in liquid medium were covered with thick layers of hydrated mucilage and root hairs, representing a significant additional barrier to oxygen transfer. Roots protruding out of the liquid medium showed no evidence of mucilage accumulation. The specific oxygen demand of A. belladonna root tips was 3.3-11.5 times higher than for the remainder of the roots, the ratio increasing as the dissolved oxygen tension was reduced. Specific growth rates, biomass yields from sugar, and atropine levels were maximum at around 150% air saturation, but decreased significantly with oxygen concentrations above ca. 200%.     

Establishment of Salvia officinalis L. hairy root cultures for the production of rosmarinic acid

Shoots of Salvia officinalis, a medicinally important plant, were infected with Agrobacterium rhizogenes strains ATCC 15834 and A4 which led to the induction of hairy roots in 57% and 37% of the explants, respectively. Seven lines of hairy roots were established in WP liquid medium under light and dark conditions. The transformed nature of the root lines was confirmed by polymerase chain reaction using rolB and rolC specific primers. Transformed root cultures of Salvia officinalis showed variations in biomass and rosmarinic acid production depending on the bacterial strain used for transformation and the root line analyzed. Both parameters (growth and rosmarinic acid content) of ATCC 15834-induced lines were significantly higher than the A4-induced lines. The maximum accumulation of rosmarinic acid (about 45 mg g(-1) of dry weight) was achieved by hairy root line 1 (HR-1) at the end of the culture period (45-50 days). The level was significantly higher than that found in untransformed root culture (19 mg g(-10 of dry wt).     

In vitro propagation of plant virus using different forms of plant tissue culture and modes of culture operation

Plant virus accumulation was investigated in vitro using three different forms of plant tissue culture. Suspended cells, hairy roots and shooty teratomas of Nicotiana benthamiana were infected with tobacco mosaic virus (TMV) using the same initial virus:biomass ratio. Viral infection did not affect tissue growth or morphology in any of the three culture systems. Average maximum virus concentrations in hairy roots and shooty teratomas were similar and about an order of magnitude higher than in suspended cells. Hairy roots were considered the preferred host because of their morphological stability in liquid medium and relative ease of culture. The average maximum virus concentration in the hairy roots was 0.82 ± 0.14 mg g⁻¹ dry weight; viral coat protein represented a maximum of approximately 6% of total soluble protein in the biomass. Virus accumulation in hairy roots was investigated further using different modes of semi-continuous culture operation aimed at prolonging the root growth phase and providing nutrient supplementation; however, virus concentrations in the roots were not enhanced compared with simple batch culture. The relative infectivity of virus in the biomass declined by 80–90% during all the cultures tested, irrespective of the form of plant tissue used or mode of culture operation. Hairy root cultures inoculated with a transgenic TMV-based vector in batch culture accumulated green fluorescent protein (GFP); however, maximum GFP concentrations in the biomass were relatively low at 39 μg g⁻¹ dry weight, probably due to genetic instability of the vector. This work highlights the advantages of using hairy roots for in vitro propagation of TMV compared with shooty teratomas and suspended plant cells, and demonstrates that batch root culture is more effective than semi-continuous operations for accumulation of high virus concentrations in the biomass.     

Enhanced production of azadirachtin by hairy root cultures of Azadirachta indica A. Juss by elicitation and media optimization

Azadirachtin is one of the most potent biopesticides so far developed from a plant sources. Influence of different culture media and elicitation on growth and production of azadirachtin by hairy root cultures of Azadirachta indica was studied. Out of the three media tested, namely Ohyama and Nitsch, Gamborg's and Murashige and Skoog's basal media, hairy roots cultured on Ohyama and Nitsch's basal medium produced maximum yield of azadirachtin (0.0166% dry weight, DW). Addition of biotic elicitor enhanced the production of azadirachtin by approximately 5-fold (0.074% DW), while signal compounds such as jasmonic acid and salicylic acid showed a approximately 6 (0.095% DW) and approximately 9-fold (0.14% DW) enhancement, respectively, in the production of azadirachtin as compared to control cultures on Ohyama and Nitsch medium. Extracts from hairy roots were found to be superior to those from the leaves for antifeedant activity against the larvae of Spodoptera litura.