Ceratotheca triloba Hook.f. produce two of import compounds 9,10- anthracenedione and 1-hydroxy-4-methylanthaquinone in their roots. These compounds are structurally similar to mitoxantrone which is the current drug of pick for the intervention of chest malignant neoplastic disease and acute leukaemia. In this survey, cell suspension civilizations of C. triloba were established and the production of 9,10- anthracenedione and 1-hydroxy-4-methylanthaquinone was increased by evocation with methyl jasmonate. The compounds produced were verified by comparing to cognize criterions utilizing HPLC analysis. The production of 1-hydroxy-4-methylanthaquinone in the evoked civilization increased by 37.5 – crease after the one month civilization period, compared to the control civilization. A scheme to explicate growing medium, civilization age and an appropriate elicitor was established. By adding methyl jasmonate to a 21 twenty-four hours old civilization ( with a biomass concentration of 19 g.l-1 ) cultivated in MS medium at an incubation temperature of 26EsC, 1-hydroxy-4-methylanthaquinone can be produced at 0.75 µg.ml-1.

Abbreviations: 6-BAP- 6-benzylaminopurine ; 2,4-D- 2,4-dichlorophenoxyacetic acid ; AN-

9,10- anthracenedione ; MA-1-hydroxy-4-methylanthaquinone ; R- root infusion ; IC- intracellular infusion ; EC- extracellular infusion


Presently malignant neoplastic disease intervention involves radiation therapy or chemotherapy. These intervention regimens are effectual but have many side effects ; therefore new bioactive compounds such as anthraquinones are being investigated. Anthraquinones are a category of natural compounds that consist of the basic construction of 9, 10-anthracenedione ( Sajc et al. 1999 ) . Their derived functions presently represent one of the most effectual cytostatic agents used as front line therapy for a assortment of systematic and solid tumours ( Weiss et al. , 1986 ) . Examples of drugs incorporating the 9,10- anthracenedione mediety include: doxorubicin and mitoxantrone ( McClendon and Osheroff 2007 ) . From our earlier surveies we have isolated two anthraquinones, 9,10- anthracenedione and 1-hydroxy-4-methylanthaquinone from root infusions of Ceratotheca triloba ( Figure 1 and 2 ) . These compounds are structurally similar to mitoxantrone. The production of anthraquinones from root infusions is nevertheless limited as it require harvest home of big measures of field grown stuff. Plant growing is besides negatively affected by biological influences ( pathogen sensitiveness and insects ) during the winter months. To get the better of these restrictions the production of the possible anticancer anthraquinones from C. triloba was investigated by works cell civilization engineering. Plant cell suspension civilizations are the preferable manner of bring forthing phyto-pharmaceutical compounds because they are correctable to good fabrication pattern ( GMP ) processs and the production of the compound can be comparatively easy scaled up from the shingle flask phase to large-scale bioreactors ( Schlatmann et al. 1996 ; Wen 1995 ) . Surveies have been conducted ( Bulgakov et al. 2002, Oliveira et Al. 2007, Orban et Al. 2008 Jasril et Al. 2003, Han et al. 2002 ) on the production of assorted derived functions of 9, 10- anthracenedione in works cell civilizations ( Example: Rubia cordifolia, Rudgea jasminoides, Rubia tinctorum L, Morinda elliptica and Cinchona robusta ) . However at that place, is no literature that reports the production of 9,10- anthracenedione and 1-hydroxy-4-methylanthraquinone from the C. triloba cell civilization. C. triloba is a South African works that belongs to the household Pedaliaceae. It is widely distributed in the summer rainfall countries, particularly grass lands, bouldery topographic points and on disturbed land and along waysides. ( Tredgold 1986 ) . The whole works soaked in H2O may be used as a replacement for soap or shampoo. C. triloba can besides function as beginning of traditional medical specialty to handle painful menses, tummy spasms, sickness, febrility and diarrhoea ( Hutchings 1996 ) Tredgold 1986 ) . Previous nutritionary, chemical and antioxidant surveies were conducted on C. triloba to preliminary buttocks of the nutritionary value. In footings of traditional leafy veggies, C. triloba serves as a good beginning of energy and Mg ( Odhav et al. 2007 ) .

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In this survey an effort was made to heighten the output of anthraquinones produced in C. triloba cell suspension cultures utilizing methyl jasmonate as an elicitor. By and large, when works cells are exposed to chemical and environmental elicitors via specific works receptors, certain biological responses are triggered which lead to the activation of biosynthetic cistrons and later the production of works secondary metabolites ( Yukimune et al. 1996 ) . The chief advantage of utilizing this scheme is that it reduces the clip taken to obtain high outputs of the secondary metabolites ( Barz et al. 1988 ; Eilert 1987 ; DiCosmo and Tallevi 1985 ) . Jasmonates play a cardinal function in arousing biological responses that lead to the accretion of secondary metabolites ( Gundlach et al. 1992 ) . Methyl jasmonate was used in this survey as it has been proven to increase the production of phyto-pharmaceutically valuable compounds, such as paclitaxel and baccatin III from Taxus species ( Yukimune et al. 1996 ) and Ajmalicine from Catharanthus roseus ( Parsons et al. 2004 ) .

Materials and methods

Plant stuff

Specimens of C. triloba in flower were was collected in Durban, Province of Kwazulu Natal, South Africa, and identified at the Ward Herbarium utilizing systematic keys. Voucher specimens were deposited at the Durban Botanical Herbar­ium.

Plant cell civilization

Leafs of the C. triloba works were removed and washed with distilled H2O three times and sterilized with HgCI2 and NaCIO. The sterilisation agents were tested separately and in combinations utilizing the exposure time/s indicated in Table 1. Excess detergent staying on the foliages was washed off with unfertile distilled H2O at each interval. Leaves submerged in distilled H2O for 20 proceedingss, served as the control. The sterilised and control foliages were cut into 0.5 centimeters square discs and were placed on MS medium ( Murashige and Skoog 1962 ) ( Sigma-Aldrich, Inc ) which was supplemented with 1 mg.L-1 2.4-D and 6-BAP ( Sigma-Aldrich, Inc ) . The foliage discs ( 12 replicates for each intervention ) were incubated in the dark stage at 26EsC for one hebdomad and were visually screened on the 7th twenty-four hours. The per centum of taint and degree of tissue harm on each explant were recorded. The sterilisation regimen that yielded no taint was later used to mass green goods callus civilizations. These civilizations were transferred onto fresh medium and maintained by sub-culturing at 3 hebdomad intervals.

Approximately 2 g of callosity ( three hebdomads old ) from the 2nd sub-culture was transferred into 250 milliliters Erlenmeyer flasks incorporating 50 milliliter of MS liquid medium supplemented with1 mg.L-1 of 2.4-D and 6-BAP. The flasks were agitated on a shaker ( Infors Ecotron ) at 100 revolutions per minute and incubated at 26EsC in the dark stage for one hebdomad. These civilizations were scaled up to 400 milliliters volumes in 1000 milliliter flasks by reassigning 70 milliliter of medium to 30 milliliter of civilization. After one hebdomad of culturing 300 milliliter of medium was added into the flasks. A growing curve was constructed to obtain sufficient cell mass for evocation. All flasks were sampled at 7 twenty-four hours intervals to find the measure of cell mass by wet weight analysis. Triplicate samples of the cell suspension civilization ( 2 milliliter ) were vacuity filtered through pre-weighed filters ( 0.22 µm, 47mm, white grid, Millipore ) after which each filter incorporating wet biomass was measured. The wet weight was determined by the undermentioned equation: [ ( Wet weight + filter ) – ( filter ) ] x 500 = moisture weight ( g. L-1 ) . Methyl jasmonate ( Sigma-Aldrich, Inc ) solution was prepared at a concentration of 100 µM in ethyl alcohol. An aliquot of 1000 of the elicitor solution ( 2.5 µl of 100 µM of methyl jasmonate per milliliter of civilization ) was filter sterilized ( 0.22 µm filter ) into two flasks on twenty-four hours 21. An equal volume of ethyl alcohol was filter sterilized into two flasks to function as control civilizations. The evocation was conducted for a 9 twenty-four hours period and cell suspension civilizations were harvested at twenty-four hours 30 to execute extraction and chromatographic analyses.

Extraction of anthraquinones from C. triloba roots

Healthy, clean roots of the C. triloba works were dried room temperature for 5-8 yearss. Once wholly dry, works stuff was land to a all right pulverization utilizing a Wareing liquidizer and stored in a closed container at room temperature until required. The land stuff was extracted with the least polar dissolver, hexane. The hexane infusion was evaporated and stored. The macerate was reconstituted in hexane and the infusion was combined with the initial infusion. This process was repeated three times.

Extraction of anthraquinones from C.triloba cell suspension civilizations

The cell mass of suspension civilizations were harvested by centrifugating 50 ml volumes at 4000 revolutions per minute for 10 proceedingss at 20EsC. The cell mass was disrupted by sonication ( Virsonic, Virtis ) at 4 pounds per square inch for 10 proceedingss. Anthraquinones were extracted by fomenting the disrupted cell mass on a shaker at 180 revolutions per minute for 24 hours at room temperature in 100 milliliter of hexane. The supernatant was agitated in 200 milliliters hexane. Hexane fractions were separated and concentrated by utilizing a roto-evaporator ( Heidolph Laborota 400 efficient ) with the H2O bath set at a temperature of 50 & A ; deg ; C and the flask rotated at 60 revolutions per minute. The residues where dissolved in 10 milliliter of hexane while the extra residue that was fixed to the flask was dissolved in 5 milliliter of ethyl ethanoate. The hexane and ethyl ethanoate fractions were so pooled and air dried for 3 yearss to farther concentrate the extract readying for chromatographic analyses.

Detection of anthraquinones produced in C. triloba cells by TLC

Thin bed chromatography was performed to observe anthraquinones in cell and supernatant infusions by utilizing of 9,10- anthracenedione and 1-hydroxy-4-methylanthaquinone criterions ( 1 mg.ml-1 in ethyl ethanoate ) ( Sigma-Aldrich, Inc ) . Approximately 10 µl of each standard solution, 20 µl of the root infusion ( 100 mg.ml-1 in hexane ) and 50 µl of the cell infusion ( dissolved in ethyl ethanoate ) were applied to the TLC silicon oxide gel home base ( Merck TLC F254 ) . Petroleum quintessence: ethyl ethanoate: formic acid ( 75:25:1 ) , ethyl ethanoate: methyl alcohol: H2O ( 100:13.5:10 ) and hexane: ethyl ethanoate ( 90:10 ) were used as nomadic stages. Separated anthraquinones were visualized under seeable and ultraviolet visible radiation ( 254 and 360 nanometer, Camag Universal UV lamp TL-600 ) after the TLC home bases were sprayed with 5 % KOH in ethyl alcohol or p-anisaldehyde solution ( 13.31 milliliter of anisaldehyde in 250 milliliter of ethyl alcohol and 2.5 milliliter of H2SO4 ) ( Wagner et al. , 1984 ) . Plates sprayed with p-anisaldehyde were developed by heating at 120EsC in a oven for 20 proceedingss.

Designation and quantification of anthraquinones by HPLC analysis

HPLC analysis was carried out harmonizing to the method of Fernand et Al. ( 2008 ) . Cell infusions were dried at room temperature for 3 yearss and dissolved in 1 milliliter of ethyl alcohol, the filtrates were used for HPLC analysis. Separation and quantitative analyses of anthraquinones were performed on a Merck- Hitachi LaChrom system ( Darmstadt, Germany ) consisting of a D 7000 system accountant, four pumps ( D7400 ) , a Merck- Hitachi LaChrom ( L-7200 ) car injector and an Merck- Hitachi LaChrom ( L-7200 ) UV-VIS sensor ( ? = 260 nanometer ) . Separation of the analytes was performed at 40 EsC on a Licrospher C18 ( 2 ) column, 100 EsA pore size, 5µm atom size, 250-4.6mm i.d.column incorporating a guard column ( Merck, Darmstadt, Germany ) . The analytes were eluted isocratically at a i¬‚ow rate of 0.4mL/min utilizing an acetonitrile/methanol/buffer ( 25:55:20, v/v ) . The buffer used as 10mM ammonium ethanoate at pH 6.8. The injection volume was 10 µL.

Consequences and treatment

Sterilization of C. triloba explant stuff

A major challenge at the initial phase of developing the C. triloba cell civilization system was to get the better of the taint in field grown workss, as this was the beginning of explant stuff. It was hence of import to analyze consequence of two surface sterilisation agents on taint and the leaf tissue. The most prevailing type of taint in C. triloba explants was fungous while bacterial taint occurred indiscriminately. The per centum explants contaminated with Fungis were 100 % with several interventions due to the spread of the taint to all explants in the home base. The per centum of explants contaminated with bacteriums was 16.67 % as the bacterial taint remained localized to the affected explants ( Table 2 ) .

Explants treated with NaCIO ( 30 % ) and HgCI2 ( 0.1 % ) in combination eradicated all contaminations present in the foliage explants, hence this intervention was used for induction of callosity. The effectivity of this intervention could be due to interactive consequence of the two surface sterilisation agents as contaminated explants resulted when they were used individually. However a high degree of tissue harm was observed in the explants when this intervention government was applied ( Table 2 ) . A possible ground could be that foliage ( light green foliage ) explants were exposed to this intervention contained a high degree of meristematic tissue. The higher grade of meristematic tissue in an explant the more apt it could be to weave harm caused by the surface sterilisation agents. Therefore, leaves with a lower degree of meristematic tissue ( green foliages ) were selected and come up sterilized with NaCIO ( 30 % ) and HgCI2 ( 0.1 % ) to bring on callus civilizations from the C. triloba works.

Callus initiation

Callus induction was observed on the surface and cut terminals of the explants after 2-3 hebdomads of vaccination. After five hebdomads the full foliage explant was transformed into callus tissue. Callus civilizations induced on MS medium were orange- yellow in colour. These civilizations turned brown as they aged and the medium later became xanthous, this could be due to the release anthraquinones. Abdullah et Al. ( 1998 ) besides observed the same phenomenon. Sub-cultured callus tissue produced root hairs and root- like constructions after three hebdomads and these contained yellow pigment on tips of the root-like constructions. ( Figure 3 ) . These pigments can be used as a marker for choosing high giving up cell lines.

Cultivation of cell suspension civilizations for evocation of anthraquinones

The constitution of cell suspension civilizations from callus tissue was a cardinal measure in developing an efficient cell civilization system for bring forthing anthraquinones as liquid civilizations have a faster growing rate compared to callus. Callus civilizations were transitioned into liquid medium, the crumbly callus tissue dispersed into little sums when flasks were placed on the shaker. A growing curve of C. triloba cell suspension civilizations was generated to obtain sufficient biomass to arouse the production anthraquinones ( Figure 4 ) . The biomass concentration increased from 5.50 g.l-1 to 19 g.l-1 after 20 yearss of cultivation ; nevertheless this addition accounts merely for the cell mass that remained in suspension during trying as really big sums tend to drop to the underside of the flask. After 20 yearss dense, orange- yellow cell suspension cultures with big sums formed. Therefore, cell suspension civilizations were elicited on twenty-four hours 21 with methyl jasmonate. The production of cell suspension cultures with a extremely dense cell mass is important for obtaining high outputs of the plant-derived compound as secondary metabolites are based in intra-cellular parts of the cell ( Luckner 1990 ) . Harmonizing to Figure 4, a important addition in biomass occurred after twenty-four hours 21. This could be due to the high degree of collection that occurred in the control ( unelicited ) and evoked civilizations. A crisp lessening in cell mass occurred in the control on twenty-four hours 30 due to the formation of big sums in suspension ( larger cell sums tend to drop to the underside of the flask during trying ) . Figure 5 shows the sums in the evoked civilization were smaller than the control civilization. A cultivated works cell suspension civilization with a high concentration of cell sums is an ideal mark for the elicitor as cell collection is associated with secondary metabolite production ( Bais et al. 2002 ) .

Elicited cell suspension civilizations turned dark brown 2 yearss after the add-on of methyl jasmonate while control civilizations remained orange-yellow ( Figure 5 ) . A similar tendency was observed for M. elliptica cells which turned brown when anthraquinones were produced ( Abdullah et al. 1998 ) . The dark brown colour of the cell sums can be used as an indicant that anthraquinones were elicited. Since the accretion of anthraquinones in C. triloba cell suspension civilizations is coupled with cell collection and cell Browning, the cell sums should be obtained and assessed for the production of anthraquinones in order to choose high giving up cells for future surveies.

Analysis of cell suspension civilization infusions

The anthraquinones of involvement, 9,10- anthracenedione and 1-hydroxy-4-methylanthaquinone could non be detected in control ( unelicited ) and evoked civilization extracts when the TLC home base sprayed with p-anisaldehyde ( Figure 6 ) . The TLC home base sprayed with 5 % KOH home base was viewed under UV visible radiation. No anthraquinones were detected under 254 nanometers ( Figure 6 ) in the civilization extracts. However when the TLC home base was viewed under UV visible radiation at 360 nanometers, 9.10-anthraquinone fluoresced orange and 1-hydroxy-4-methylanthaquinone fluoresced yellow in the root infusion ( Figure 6 ) . In comparing to the root infusion, merely 1-hydroxy-4-methylanthaquinone ( xanthous fluoresces ) was detected in the intra-cellular infusions of the evoked and control civilizations. The anthraquinone criterions confirmed the presence of anthraquinones in the intra-celluar infusions of the control and evoked civilizations but single anthraquinones could non be detected as both criterions co-eluted when the two nomadic stages: crude oil quintessence: ethyl ethanoate: formic acid ( 75:25:1 ) and ethyl ethanoate: methyl alcohol: H2O ( 100:13.5:10 ) , were employed

TLC and HPLC analysis showed that anthraquinone accretion was chiefly intracellularly based as the concentrations of the intracellular infusions were higher than that of the supernatant infusions ( Figure 6 and Table 3 ) . HPLC analysis showed the 9,10- anthracenedione and 1-hydroxy-4-methylanthaquinone criterions eluted at keeping times of 5.90-6.20 proceedingss and 6.90-7.40 proceedingss severally ( Figure 7 ) . The evoked and control civilization infusion ( intra-cellular ) profiles showed a extremum at 6.91 and 7.05 proceedingss, severally. 1-hydroxy-4-methylanthaquinone was identified in both the infusions ( Figure 8 and 9 ) . 9,10- anthracenedione was non identified in the control and elicited civilizations profiles. This was due to co-elution of 9,10- anthracenedione with other anthraquinones in the sample ( Figure 7 and 8 ) . Co-elution occurs when compounds in a sample do non divide due to the similarity of the construction between the compounds which in bend influences the elution clip of the similar compounds.

A higher concentration of 1-hydroxy-4-methylanthaquinone was present in the evoked civilization infusion ( 0.75 µg.ml-1 ) than the control civilization infusion ( 0.02 µg.ml-1 ) ( Table 3 ) . Earlier surveies have shown that the production of secondary compounds in cell civilization systems were dramatically increased through the evocation scheme ( Wang and Zhong 2002 ; Yu et Al. 2002 ) . This scheme was proven to be successful in the C. trioba cell civilization system as production output of 1-hydroxy-4-methylanthaquinone in the evoked civilization increased 37.5 – crease in comparing to the control civilization.

This is the first survey that shows C. triloba cell suspension civilizations can micro-propagated by works cell civilization techniques and produce possible bioactive compounds for malignant neoplastic disease therapy. A scheme to explicate growing medium, civilization age and an appropriate elicitor was established. By adding methyl jasmonate to a 21 twenty-four hours old civilization ( with a biomass concentration of 19 g.l-1 ) cultivated in MS medium at an incubation temperature of 26EsC, 1-hydroxy-4-methylanthaquinone can be produced at 0.75 µg.ml-1.


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