OPTIMIZATION of TEMPERATURE AFFECTED EXTRACTION of INDIGO DYE in the LEAF EXTRACTS of POLYGONUM TINCTORIUM Ait

OPTIMIZATION of TEMPERATURE AFFECTED EXTRACTION of INDIGO DYE in the LEAF EXTRACTS of POLYGONUM TINCTORIUM Ait

Acta Poloniae Pharmaceutica ñ Drug Research, Vol. 70 No. 3 pp. 579ñ583, 2013 ISSN 0001-6837 Polish Pharmaceutical Society SHORT COMMUNICATION OPTIMIZATION OF TEMPERATURE AFFECTED EXTRACTION OF INDIGO DYE IN THE LEAF EXTRACTS OF POLYGONUM TINCTORIUM Ait. CULTIVATED IN POLAND ñ PRELIMINARY STUDIES WIRGINIA KUKU£A-KOCH1*, KAZIMIERZ G£OWNIAK1, WOJCIECH KOCH2 and STANIS£AW KWIATKOWSKI1 1Chair and Departament of Pharmacognosy with Medicinal Plant Unit, Medical University of Lublin, 1 Chodüki St., 20-093 Lublin, Poland 2Department of Food and Nutrition, Medical University of Lublin, 4a Chodüki St., 20-093 Lublin, Poland Keywords: Polygonum tinctorium, indigo dye, traditional chinese medicine, seasonal variation, extraction con- ditions, RP-HPLC Polygonum tinctorium Ait. (Polygonaceae) on the climatic conditions. Up to date, dyerís known as dyerís knotweed is an annual plant grow- knotweed has been cultivated for medicinal use ing in the sandy and loamy soils of China, Japan and mainly in Asia. Satisfactory content of indigo in P. Eastern Russia, where it is cultivated for both indus- tinctorium cultivated in Poland from seedlings could trial and pharmacological usage (1). be meaningful and spread the cultivation area of this Indigo - one of its main constituents - has been plant to cooler climatic zones. Seasonal variations in widely used in traditional chinese medicine, and the production of indigo in the Polish specimen were also, as a natural dye, in the production of denim. monitored and compared to its content in dried leaf Although its synthesis is already known, significant of dyerís knotweed of Chinese origin. Furthermore, amounts of indigo are still being recovered from the influence of different extraction pattern on indi- naturally occurring plant material for medicinal use, go content in the leaf extracts was measured. by means of water extraction and alkaline precipita- tion (2). EXPERIMENTAL Currently, indigo-related compounds are of significant interest both as natural colorants and Chemicals and reagents pharmacologically active compounds. Numerous The standard of indigo CRS was purchased references treating on their detoxifying, antipyretic, from Sigma Aldrich (St. Louis, MO, USA). antiviral, antidermatophytic or antinociceptive prop- Methanol of HPLC grade was from J.T. Baker erties confirm the importance of their recovery (3- (Gross-Gerau, Germany), whereas water for HPLC 5). purposes was purified on Millipore water purifica- The aim of presented study was to analyze the tion system. indigo dye content in the leaf extracts of Polygonum Methanol, chloroform, chloral hydrate and tinctorium Ait. collected in the late summertime dichloromethane (reagent grade) came from Polish (beginning of September) and late fall (mid October Reagents (POCH, Gliwice). after ground-frost) from the garden of Chair and Discovery HS RP 18 (250 mm ◊ 4.6 mm, dp = Department of Pharmacognosy (Medical University 5 µm) (Supelco, Sigma Aldrich) HPLC column was of Lublin) located in Poland, to check, whether the employed in HPLC chromatographical separation of production of indigo by plant cells differs depending extracts. * Corresponding author: e-mail: [email protected] 579 580 WIRGINIA KUKU£A-KOCH et al. Agilent Technologies Series 1100 HPLC/PDA sys- Described extraction procedure was performed tem was applied in the qualitative and quantitative for PT A, PT B and PT C samples of leaves of analysis of the extracts, as well as in the preparation Polygonum tinctorium Ait. and repeated three times of indigo calibration curve. using fresh plant material each time. Two percent solution of chloral hydrate (previ- Plant material ously dried over silica gel in a dessicator) in chloro- Seedlings of Polygonum tinctorium Ait. (in their form and dichloromethane were used as extrahents. vegetative form) were brought from Japan, from Their extraction potential was confronted based on Tokushima Bunri University garden, authenticated by intensities of indigo peaks obtained in the HPLC the authors and subsequently planted in the garden of analysis. Chair and Department of Pharmacognosy with Subsequent HPLC extractsí profiling showed Medicinal Plant Unit, Medical University of Lublin, the sample related differences in the indigo content. Poland. The study on seasonal variation of indigo was performed after leaf collection in the late summer Reference solution (beginning of September 2011 ñ and called a ìPT Aî Twenty five milligrams of indigo CRS was sample) and early autumn (mid October 2011 ñ diluted in 250 mL of dichloromethane R and ultra- named as ìPT Bî sample) ñ one day after the first sonicated in a water bath (power 250 W, frequency ground-frost. The leaves were dried in air oven at 33 kHz) in 30OC for 90 min in a volumetric flask. 35OC until constant weight to determine the mean dry Afterwards, it was allowed to cool, diluted in weight and pulverized into a coarse-grained powder. dichloromethane to volume and mixed well. The Voucher specimens (WK0911001 for PT A obtained solution was filtered through a membrane and WK1011003 for PT B) were deposited in the filter (nominal pore size 0.45 µm) and subjected to same department. further HPLC assay. Dried and powdered leaves of Polygonum tinc- torium Ait. were additionally purchased in Taiwan HPLC/DAD profiling of extracts (Taipei) from Sun Ten Pharmaceutical to constitute All derived extracts were redissolved in the reference for Polish crops and were named a ìPT Cî methanol (HPLC grade) and subjected for RP- sample. HPLC-DAD analysis. More specifically, an HPLC system (Agilent Series 1100) was employed for the Extraction profiling of the extract and consisted of a pump, a Investigated plant material was dried and degasser, autosampler, and a PDA detector. ground after its collection and extracted using ChemWin software was used for the management of dichloromethane or 2% solution of chloral hydrate data. For phytochemical profiling an RP 18 (250.0 in chloroform. The extraction potential of extrahents mm ◊ 4.0 mm, 5.0 µm) Discovery-Sigma Aldrich was confronted based on the indigo peak area column was used and the injection volume was 10 obtained in the HPLC analysis. Subsequent HPLC µL. The mobile phase consisted of water (solvent A) extractsí profiling showed the sample related differ- and methanol (solvent B). Optimization of HPLC ences in the indigo content. separation of PT A, PT B and PT C extracts was per- The results of extraction and HPLC optimiza- formed using different isocratic runs and methodsí tion of the obtained extracts were confronted with run time. The elution conditions employed in the those presented in the monograph of Polygonum search for the best separation system were: B/A (6 : tinctorium Ait. in the Chinese Pharmacopoeia 4), (7 : 3), (8 : 2) with flow rate of 1 mL/min, as well (2005) [6]. as B/A (7 : 3) with flow rate of 1.5 mL/min. The method run time was set at 40 min at first, the post Test solution time at 3 min and the chromatograms were recorded Forty milligrams of powdered plant material at 260 and 290 nm by monitoring spectra within the was suspended in 8 mL of extrahent and ultrasoni- wavelength range of 200-500 nm, at room tempera- cated in a water bath (power 250 W, frequency 33 ture (25OC). Qualitative and quantitative analysis of kHz) at 30OC for 90 min in a 10 mL volumetric indigo content in the obtained extracts was per- flask. The extract was allowed to cool, then was formed after triplicate injections of each sample. diluted to volume and mixed well. The obtained bright blue extract was filtered through a membrane Calibration curve filter in the end (nominal pore size 0.45 µm, Waters) Basing on Chinese Pharmacopoeia mono- and subjected to HPLC analysis. graph, the calibration curve of indigo reference solu- Optimization of temperature affected extraction of indigo dye... 581 tion was developed by subsequent injections of dif- version 6 software of StatSoft Inc., Tulusa, OK, ferent volumes (1, 4, 8, 12, 16 and 20 µL) [6]. The USA and Microsoft Office Excel 2003. The p-value calibration curve was established based on triple of 0.05 was set as a limit for statistically significant injections data. The HPLC method was set as for test difference in the studies. solutions. RESULTS Statistical analyses The data of the experimental observations (the RP-HPLC conditions adjustment mean of values (x), standard deviation (SD) and Methanol : water (7 : 3) isocratic separation Student t-test) were computed using STATISTICA within 20 min, with 1 mL/min flow rate, three- Table 1. Averaged values of indigo peak areas obtained after chloroform and dichloromethane extractions for PT A, PT B, and PT C samples. Peak area Extrahent PT A PT B PT C Dichloromethane 1 409.68 201.30 294.33 Dichloromethane 2 400.44 196.57 293.97 Dichloromethane 3 374.89 181.61 283.80 Dichloromethane 4 376.30 189.35 283.54 Average 390.33 192.21 288.91 Standard deviation 17.44 8.61 6.06 2% sol. of chloral hydrate in chloroform 1 718.13 468.33 659.87 2% sol. of chloral hydrate in chloroform 2 724.28 468.25 656.56 2% sol. of chloral hydrate in chloroform 3 744.66 504.39 714.10 2% sol. of chloral hydrate in chloroform 4 739.85 505.83 718.72 Average 731.73 486.70 687.32 Standard deviation 12.57 21.27 33.68 Table 2. Indigo content in the investigated samples (PT A, PT B and PT C). DCM ñ dichloromethane extraction, CP ñ extraction with 2% solution of chloral hydrate in chloroform. PTA PTB PTC Sample % Sample % Sample % Extrahent weight indigo weight indigo weight indigo [mg] content [mg] content [mg] content DCM 1 39.25 0.96 39.92 0.57 39.18 0.75 DCM 2 39.12 0.94 39.87 0.57 39.21 0.75 DCM 3 40.30 0.87 41.10 0.52 43.20 0.66 DCM 4 38.70 0.91 38.80 0.57 43.30 0.66 Average 39.34 0.92 39.92 0.56 41.22 0.71 CP 1 40.73 1.46 39.29 1.06 38.07 1.45 CP 2 40.92 1.46 39.25 1.06 39.02 1.41 CP 3 40.31 1.52 39.99 1.11 36.68 1.61 CP 4 41.10 1.48 40.04 1.11 36.63 1.62 Average 40.77 1.48 39.64 1.09 37.60 1.52 582 WIRGINIA KUKU£A-KOCH et al.

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